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Lac, Plant Resins and Gums Statistics 2015: At a Glance

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In this issue, content is presented in five major headings covering introduction; methodology; production, processing and trade; policy implications and conclusions. Information on market trend is essential for better organization of Indian producing states to meet increasing demand through better organization of their local/regional/national commercial channels from production to export, stabilization of the market with appropriate stocks, quality control of exported products and adequate support and application of price at production level. While it applies to a wide range of situations, marketing research gives decision-makers the information they need to find solutions to business problems such as how consumer satisfaction, decision, etc. Simply put, the solution to most business problems can be found through marketing research.
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ISSN No IS : 2454-8782
Lac, Plant Resins and Gums
Statistics 2015 : At a Glance
ICAR-Indian Institute of Natural Resins and Gums
Namkum, Ranchi-834 010, Jharkhand (India)
ISSN No IS : 2454-8782
Lac, Plant Resins and Gums
Statistics 2015 : At a Glance
ICAR-Indian Institute of Natural Resins and Gums
Namkum, Ranchi-834 010, Jharkhand (India)
RK Yogi
Alok Kumar
AK Jaiswal
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Bulletin (Technical) No. 17/2017
April 2017
Published by
Dr KK Sharma
Director
Correct citation
Yogi RK, Kumar Alok and Jaiswal AK 2017. Lac, Plant Resins and Gums Statistics 2015: At a
Glance. ICAR-Indian Institute of Natural Resins and Gums, Ranchi (Jharkhand), India. Bulletin
(Technical) No. 17/2017. 01-72 pp.
Technical assistance
Madan Mohan
DK Singh
Produced by
Dr MZ Siddiqui, Dr RK Yogi, Dr SS Bhat, Dr Anjesh Kumar
Cover page photographs
Up to down : Row 1 - Accasia nilotia (Rajasthan) Row 2 - Sterculia urens (Jharkhand)
Row 3 - Commiphora wightii (Gujarat) Watermark - Production and EXIM trend of guar gum.
ISSN No.IS-2454-8782
© ICAR-Indian Institute of Natural Resins and Gums, Namkum, Ranchi
Phone: 0651-2261154 (TOT Division), Fax: 0651-2260202
Email:head.tot.iinrg@gmail.com, Visit us:www.icar.org.in/iinrg/default.htm
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
FOREWORD
Non-Wood Forest Products (NWFPs) have for many years been seen as providing fertile ground
for community development initiatives, especially those focused on rural, remote, indigenous,
and/or economically marginalized communities. Production of such natural products is greatly
inuenced by weather vagaries and prices. erefore, statistics of these commodities are sought by
the traders, processors, exporters, importers, government ocials, policy makers, researchers and
others. e present publication, ‘Lac, Plant Resins and Gums Statistics 2015: At a Glance’ contains
statistics on geographical distribution, production, price, processing, export and import of natural
resins and gums including lac, pine resins, guar gum, gum karaya, dhawda gum, Olibanum, etc. e
production of gums in important States, viz, Chhattisgarh, Madhya Pradesh, Gujarat, Rajasthan
and Andhra Pradesh; production of pine resins in Uttarakhand and Himachal Pradesh; export and
import of natural resins and gums is included to give a clear and comprehensive overview of the
most important information in as little time as possible.
Reliable and timely availability of data and information on natural resins and gums production
may be helpful to the stakeholders. Documentation of updated major production and market
areas will be helpful in relation to plan their operation in time for collection and disposal of the
produces. is publication is the comprehensive treatment of Natural Resins and Gums (NRGs)
in India. It had a strong focus on the markets and potential markets for these products. It will be
useful to private sectors who are interested in increasing their income and widening its base.
In this issue, content is presented in ve major headings covering introduction; methodology;
production, processing and trade; policy implications and conclusions. Information on market
trend is essential for better organization of Indian producing states to meet increasing demand
through better organization of their local/regional/national commercial channels from production
to export, stabilization of the market with appropriate stocks, quality control of exported products
and adequate support and application of price at production level. While it applies to a wide
range of situations, marketing research gives decision-makers the information they need to nd
solutions to business problems such as how consumer satisfaction, decision, etc. Simply put, the
solution to most business problems can be found through marketing research.
We believe it will contribute to the development of a sector that has huge untapped potential in an
assortment of directions. I am sure that the information and data contained in this bulletin would
be useful to all the stakeholders of NRG sector. Authors made every eort to distill and condence
a very large and diverse topic into and approachable volume. I exalt the authors for their eorts in
bringing out this bulletin. Suggestions and inputs are sought from stakeholders for improvement
of this publication in future. e information used in the publication will be duly acknowledged.
Ranchi
(KK Sharma)
Director
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Acknowledgement
We thankfully acknowledge e International Trade Centre (ITC) a joint agency of the World Trade
Organization and the United Nations, Genewa, Switzerland; Director General of Commercial
Intelligence and Statistics, Government of India, Kolkata; Shellac and Forest Products Export
Promotion Council, Kolkata; Directorate of Economics and Statistics, Ministry of Agriculture,
Govt. of India; Girijan Co-operative Corporation Limited, Visakhapatnam, Government of Andhra
Pradesh; Kovel Foundation, Visakhapatnam, Andhra Pradesh; Sahayog Community Coordination
Network, Visakhapatnam, Andhra Pradesh; e Tribal Cooperative Marketing Development
Federation of India Limited (TRIFED), New Delhi.e Jharkhand State Co-operative Lac Marketing
& Procurement Federation Ltd., Ranchi, Government of Jharkhand State Agriculture Marketing
Board (JHAMFCOFED), Ranchi, Jharkhand; Chhattisgarh Minor Forest Product Federation Ltd.,
Raipur, Government of Chhattisgarh; Madhya Pradesh State Minor Forest Product Federation
Ltd., Bhopal, Government of Madhya Pradesh; Gujarat State Forest Development Corporation,
Vadodara, Gujarat; Forest Department, Government of Himachal Pradesh; Forest Department,
Government of Uttarakhand; Forest Department, Government of Maharashtra; various NRG
based processors, traders, exporters, importers, progressive farmers, forest dwellers, ocials of
various Government and Non - Government Organizations and other key informants for their
valuable inputs, information and data.
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
CONTENTS
Sl.
No. Particulars Page
No.
LIST OF UNITS AND CHAPTERS
I. INTRODUCTION 1-5
II. METHODOLOGY 6-9
1. Sampling design and survey area 7
III. PRODUCTION, PROCESSING AND TRADE 10-62
(A) NATURAL RESINS 11-33
2. Lac – a fauna based natural resin 11
3. Pine resin –a ora based resin 24
4. Copal–a ora based resin 32
5. Dammar batu–a ora based resin 32
6. Mastic gum–a ora based resin 33
(B) NATURAL GUMS 33-55
7. Gum karaya –Plant exudate based natural gum 34
8. Dhawda gum/Gum ghatti –Plant exudate based natural gum 38
9. Gum Arabic –Plant exudate based natural gum 39
10. Asian gum –Plant exudate based natural gum 42
11. African gum –Plant exudate based natural gum 44
12. Jhingan gum–Plant exudate based natural gum 44
13. Saja–Plant exudate based natural gum 45
14. Tragacanth (Adracanth) –Plant exudate based natural gum 45
15. Xanthum gum–a fauna based natural gum 45
16. Other gums –Plant exudate based natural gums 46
17. Seed based natural gum - Guar gum 48
(C) NATURAL GUM RESINS 55-60
18. Salai 55
19. Myrrh 57
20. Asafoetida 57
21. Dikamali 58
(D) NATURAL RESINS AND GUMS 60-62
22. Export and import of Natural Resins and Gums during 2014-15 61
I V. POLICY INTERVENTIONS 63-64
23. Mechanism for marketing of Minor Forest Products (MFPs) through Minimum
Support Price (MSP) and development of value chain for MFP
63
V. CONCLUSIONS 65-66
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Sl.
No. Particulars Page
No.
LIST OF TABLES
1. World EXIM trade aggregation of lac, natural gums, resins, gum-resins and
balsam
5
2. States and districts surveyed 7
3. Sample size during the survey 8
4. Total NRG production and trade during 2014-15 10
5. Lac production in India during 2014-15 12
6. Top ten lac producing districts in the country 13
7. Major lac processing centers in India during 2014-15 15
8. Quantity of sticklac processed in India during 2014-15 16
9. Markets with annual arrival of over 500 tons 16
10. Lac processing centers in the major lac producing districts of India 17
11. Export of lac and its value added products from India during 2013-15 19
12. Top 15 importing countries of Indian lac during 2014-15 20
13. Export of lac during previous seven years 20
14. Export destinations of sticklac, seedlac and shellac during 2014-15 21
15. Export destinations of high value products of lac during 2014-15 21-22
16. Export destinations of by-products of lac during 2014-15 23
17. Commercially tapped sources of pine resin: species and country of production 25
18. State wise annual pine resin production and their contribution in the total
production
27
19. Quality criteria for dierent grades of the rosin 28
20. Grade-wise price of rosin during 2014-15 29
21. EXIM scenario of rosin during 2014-15 31
22. EXIM scenario of copal during 2014-15 32
23. EXIM scenario of dammar batu during 2014-15 32-33
24. Gum production in major gum producing states of India (in tons) 35
25. Gum karaya production in major gum producing states of India 35
26. Export and import of gum karaya during 2014-15 37
27. Dhawda gum production in major gum producing states of India 39
28. Export and import of gum Arabic during 2014-15 41
29. Export and import of Asian gum during 2014-15 43-44
30. Export and import of African gum during 2014-15 44
31. Export and import of Tragacanth (Adracanth) during 2014-15 45
32. Export and import of Xanthun gum during 2014-15 46
33. Production of other gums in India 47
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Sl.
No. Particulars Page
No.
34. Collection price of other gums in India (grade wise) 48
35. All India area, production and yield of guar seed and potential of guar gum
production
49
36. State wise area, production and yield of guar seed during previous seven years 50
37. Various varieties of processed products of guar gum for industrial applications 51
38. Top agri-export commodities during previous three years 52
39. Export of guar gum during XI and XII plan period 53
40. Export and import of olibanum during 2014-15 56
41. Export and import of myrrh during 2014-15 58
42. Export and import of asafoetida during 2014-15 59
43. Total NRG production 60
44. Export and import of natural resins, gums & gum-resins during 2014-15 61
1. Annexure I. Sticklac lac production scenario in India during 2014-15 67
2. Annexure II. Lac producing areas in the country 68
3. Annexure III. Gums producing districts and areas 70
LIST OF FIGURES
1. World export ow of lac, natural gums, resins, gum-resins and balsams during
the decade
2
2. World import ow of lac, natural gums, resins, gum-resins and balsams during
the decade
3
3. Breakup of the World export aggregation of NRGs during 2014 3
4. Breakup of the World import aggregation of NRGs during 2014 4
5. Composition of stakeholders under survey programme (Category wise) 9
6. Composition of stakeholders under survey programme (State-wise) 9
7. Product/major group-wise share of NRGs 10
8. States-wise share in lac production during 2014-15 12
9. Crop-wise share in total lac production 12
10. Lac production in India during last ve years 13
11. States-wise share in lac processing during 2014-15 14
12. Lac processing in India during last ve years 17
13. Movement in prices of sticklac and seedlac 18
14. Direction of the trade of lac and its value added products 19
15. Trends in export of lac based products from India 23
16. Product-wise export share of various lac based products 24
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
17. Pine resin production and its value in Himachal Pradesh and Uttarakhand 26
18. Pine resin production in Himachal Pradesh and Uttarakhand 27
19. Price pattern of various grades of Pine resin based products 29
20. Destination wise scenario of rosin during 2014-15 31
21. Source wise scenario of rosin during 2014-15 31
22. Year wise production scenario of natural gums in India 34
23. State-wise average production of gum karaya 36
24. Gum karaya production in India 37
25. Export of gum karaya from India 38
26. Destination wise scenario of gum karaya during 2014-15 38
27. Source wise scenario of gum karaya during 2014-15 38
28. Year wise production scenario of gum ghatti in India 39
29. Destination wise scenario of gum Arabic during 2014-15 40
30. Source wise scenario of gum arabic during 2014-15 42
31. Destination wise scenario of asian gum during 2014-15 43
32. Total production of other gums across various states in India 47
33. International price level of different grades of guar gum 52
34. Trends in production potential and export of guar gum from India 53
35. Composition of guar gum export from India 54
36. Destination wise scenario of guar meal during 2014-15 54
37. Destination wise scenario of guar gum Rened split during 2014-15 54
38. Destination wise scenario of guar gum treated and pulverized during 2014-15 54
39.
Destination-wise quantitative share of the guar gum exported from India (Overall)
54
40 Destination-wise quantitative share of the olibanum exported from India 57
41. Trend in export of natural resins and gums from India during last ve years 62
42. Trend in import of natural resins and gums in India during last ve years 62
1. Photo 1. Lac and its value added products 11
2. Photo 2. Pine resin collection using borehole method 24
3. Photo 3. Karaya Tree (S. urens) : Source of gum karaya 33
4. Photo 4. Guar plant (C. tetragonoloba ) with pods 49
1
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Along with the remarkable economic growth and industry development, India has become one of
the largest producer, consumer and trader of Non-Wood Forest Products (NWFPs) in the world.
is rapid development has led to substantial changes in the global picture of NWFPs trade and
has drawn attention to the future demand and supply on a global scale. India is a diverse tropical
(dry and wet) country of approximately 1252 million people. Forest cover is about 21.34% (FSI,
2015) of the total geographical area. Forest is an important sector having a signicant contribution
to the Indian economy. Forest industries contribute to 1.2% of India’s Gross Domestic Product
(Economic Survey, Ministry of Finance, 2011). It is estimated that of the 6.2 billion people on
the planet, 25 % depend to varying degrees on the forest resources for their livelihood with 350
million people living in or near dense forest areas and depend highly on them for their subsistence
or livelihood (Killman, 2003). About 80% of the people living in developing countries depend
on Non-Wood Forest Products (NWFPs), such as fruits and herbs, for their primary health and
nutritional needs (FAO, 2008).
India houses 30% of the global poor, 24% of global population without access to electricity, and 92
million people without access to safe drinking water. Coupled with its vulnerability in terms of the
impact of climate change, this entails that India faces formidable and complex challenges in terms
of balancing the sustainable development agenda. Given the challenges it faces, it has prepared
an ambitious plan in terms of clean energy, energy eciency and lower emission intensity while
addressing the critical issue of poverty and food security. e world also witnessed the adoption
of the Sustainable Development Goals (SDGs) in September 2015 which replace the State of the
Economy: An overview 29 Millennium Development Goals (MDGs) and set the development
agenda for the next 15 years with the aim of guiding the international community and national
governments on a path of sustainable development. Domestically, many initiatives have been taken
by India on climate change and sustainable development. India has submitted ambitious targets in
its Intended Nationally Determined Contribution (INDC) in the renewable energy sector, mainly
from solar and wind energy. India’s INDC has been welcomed as fair and ambitious specically
on renewable energy and forestry sector. Out of the eight National Missions on Climate Change
in India, ve focus on adaptation in sectors like agriculture, water and forestry. In the June 2012
RIO+20 United Nations Conference on Sustainable Development, the UN General Assembly’s
Open Working Group proposed SDGs covering a broad range of sustainable development issues,
including ending poverty and hunger, improving health and education, making cities more
sustainable, combating climate change and protecting oceans and forests, and were adopted by
the General Assembly as part of the broader post-2015 development agenda in September 2015.
e SDGs are eective from January 2016 and will end in 2030.
Indian subcontinent is a major hub of biodiversity of fauna and ora. Several forest products
have signicant importance in social and economic life in tropical areas. ese forest products are
classied into wood and Non-Wood Forest Products (NWFPs). NWFPs according to denition of
FAO (1999) are ‘products of biological origin other than wood, derived from forests, shrublands
and tree plantations’. ese products are produced from trees, understory plants, fungi or animals
and collected from forests or cultivated. Many of the NWFPs have commercial value and important
contribution to the economy on local and national level. e non-wood plant species of commercial
INTRODUCTION
2
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
importance worldwide are estimated to be 4000 to 6000 (FAO, 2001). NWFPs include natural
resins, gums and exudates, leaves (tendu), turpentine from pines and perfumery oils from roots,
stumps and fruits of various tree species. ese are also natural source of spices, medicines, dyes
and tannins. Most NWFPs are export currency earners and many are well suited for local small scale
industries. In tribal and disadvantaged district areas of the India, NWFPs such as natural resins,
gums and tamarind seeds are more protable than timber. Despite the importance of NWFPs, the
sustainable management of forests has been traditionally focused on timber production. However,
in the recent decades the interest for NWFPs have been increased, as a result of the international
shift to multifunctional sustainable forest management, which aims at optimizing the provision
of multiple goods and services, while maintaining the equilibrium of forest ecosystems. Within
this framework the promotion and utilization of NWFPs is identied as a priority area by the FAO.
However, the particularities in harvesting these products distinguish their management from
that of timber. For example, some NWFP have short harvesting period and products perish soon
after this period. Additionally, their frequent, uncontrollable and illegal harvest may have negative
eects on the forest ecosystem.
e contribution of agriculture and allied sectors to the Gross Value Added(GVA) at 2011-12
prices of the country has been declining. In national accounts, GVA is output minus intermediate
consumption. It is a balancing item of the national accounts’ production account. e growth rates
in agriculture have been uctuating at 1.5% in 2012-13, 4.2% in 2013-14, (-) 0.2% in 2014-15 and
a likely growth of 1.1% in 2015-16. Among the agriculture and allied sectors, crops including fruits
and vegetables account for about 61.0% of the GVA; the rest by the allied sectors consisting of
livestock products, forestry and sheries. e share of forestry and loggings to the GVA (at 2011-
12 prices) of the country has also been declining and it is uctuating at 1.5 % in 2012-13, 1.5 % in
2013-14, 1.4 % in 2014-15 and a likely growth of 1.2 % in 2015-16.
669 669
470
549
601
745
693 717
651
531
0
100
200
300
400
500
600
700
800
2005 2006 2007 2008 2009 2010 2011 2012 2013 2014
Export value (Million US Dollar)
Figure 1. World export ow of lac, natural gums, resins, gum-resins and balsams during the decade
According ITC calculations based on UN COMTRADE statistics, the world trade aggregation of lac,
natural gums, resins, gum-resins and balsams during 2014 was about 1358.44 million US dollars.
3
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Out of this, the world export aggregation of lac, natural gums, resins, gum-resins and balsams
during 2014 was about 530.78 million US dollars. A decadal data (2005-2014) on world EXIM
aggregation of lac, natural gums, resins, gum-resins and balsams were analyzed and presented
in Figure 1 and Figure 2. Since 2012, deceleration in the value of world export aggregation was
observed and stagnation was found in the value of world import aggregation during the similar
period.
605 560 575 595 526
618
1128
815 855 817
0
200
400
600
800
1000
1200
2005 2006 2007 2008 2009 2010 2011 2012 2013 2014
Import value (Million US Dollar)
Figure 2. World import ow of lac, natural gums, resins, gum-resins and balsams during the decade
France
26%
India
17%
USA
7%
Germany
7% Indonesia
6%
UK
5% ailand
5%
Brazil
3% Netherlands
3%
Singapore
3%
Greece
2.3%
Ethiopia
2.2%
Nigeria
2%
Italy
2%
China
1.5% Others
8%
Other
18%
Figure 3.Break up of the World export aggregation of NRGs during 2014 (Destination wise share in %)
Major suppliers of NRGs contributing about 92 % share in international market are France (25.8%),
India (16.8%), USA (6.9%), Germany (6.5%), Indonesia (6.4%), UK (5.3%), ailand (4.8%), Brazil
(3.2%), Netherlands (3.0%), Singapore (3.0%), Greece (2.3%), Ethiopia (2.2%), Nigeria (2.1%),
Italy (1.8%) and China (1.5%). Rests of the 8% NRGs are supplied from 87 countries across the
world (Figure 3). Similarly, the world import aggregation of lac, natural gums, resins, gum-resins
and balsams during 2014 was about 816.86 million US dollars.
4
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Major importers of NRGs contributing about 80% share in the international market are India
(14.8 %), United States of America (11.7 %), France (11.2 %), Germany (6.0 %), Netherlands (5.0
%), China (4.0 %), Italy (3.7 %), United Kingdom (3.4 %), Russian Federation (3.0%), Saudi Arabia
(2.5%), Singapore (2.5%), Portugal (2.3%), Spain (2.2%), Japan (2.1%), Ireland (1.9%), Switzerland
(1.4%), Brazil (1.3%) and ailand (1.2%). Rests of the 20% demand of NRGs aroused from the
127 countries across the world (Figure 4).
India
15%
USA
12%
France
11%
Germany
6%
Netherlands
5%
China
4%
Italy
4%
UK
3%
RUS
3% Saudi Arabia
3%
Singapore
3%
Portugal
2%
Spain
2.2%
Japan
2%
Ireland
1.9%
Switzerland
1%
Brazil
1%
ailand
1%
Others
20%
Other
30%
Figure 4. Breakup of the World import aggregation of NRGs during 2014 (Source wise share in %)
FAO has estimated that NWFPs are capable of generating 4 million person-years of employment
annually (FAO, 2002; FAO, 2005). Out of a total of 16,000 recorded plant species in India, 3000 yield
NTFPs who contribute about 40 % of total forest revenue and 55% of forest based employment.
According to the World Resource Institute (WRI), the more than 1 billion peopledependon forests
for their livelihoods at global level. In 1996, Hegde and coworkers also reported that over 50 million
people are dependent on NWFPs for their subsistence and cash income in India. About 70% of the
NWFP collection in India takes place in the tribal belt of the country (Mitchell et al., 2003). Around
55% of employment in forestry sector is attributed to this sector alone (Joshi, 2003).
ere are a large number of lac host and gum producing trees in India which exude resins and
gums. Natural resins and gums (NRGs) originated from the plants/insects may be classied in
three categories namely natural resins, natural gums and gum resins. Natural resins are solid or
semi-solid materials, usually a complex mixture of organic compounds called terpenoides, which
are insoluble in water but soluble in certain organic solvents. Resin is a hydrocarbon secretion
of several plants, particularly coniferous trees. NRGs of commercial importance like lac (Kerria
lacca Kerr), Pine resin, guar gum (Cyamopsis tetragonoloba L.), gum karaya (S. urens), dhawada
gum (Anogeissus latifolia), Tamarind gum (Tamarindus indica), char /piyar gum (Buchanania lanzan
Spreng.) and babool gum (Acacia nilotica) are produced in India. India holds monopoly in world
trade over some of the NRGs such as lac, gum karaya and guar gum.
5
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Resins are valued for their chemical properties and associated uses such as the production of
varnishes, adhesives and food glazing agents. ese are also prized as an important source of
raw material for organic synthesis and as constituents of incense and perfume. is group of
natural resins includes lac secreted by an insect K. lacca (Kerr) and plant originated products like
rosin, copal and dammer. Solidied resin from which the volatile terpene components have been
removed by distillation is known as rosin.
Natural gums are polysaccharides of natural origin, capable of causing a large viscosity increase in
solution. Most often these gums are found as exudates from woody elements of plants or in seed
coatings. In the food industry these are used as thickening, gelling and emulsifying agents and
stabilizers. ese are also used as adhesives, binding agents, crystal inhibitors, clarifying agents,
encapsulating agents, occulating, foam stabilizers, swelling agents, etc. Natural gums can be
classied according to their origin. Firstly, originated from non-marine botanical resources e.g. gum
arabic, gum ghatti, gum tragacanth, gum karaya, guar gum, locust bean gum, chicle gum, dammar
gum, mastic gum, psyllium seed husks and spruce gum. Secondly, originated from seaweeds e.g.
agar and carrageenan and thirdly, produced by bacterial fermentation e.g. gellan gum and xanthun
gum. ey can also be classied as uncharged or ionic polymers (polyelectrolyte).
Gum-resins are the natural mixtures of gums and resins in variable proportions therefore possess
properties of both the groups. ey contain traces of essential oils and are partly soluble in
water. ey have a penetrating and characteristic odour and taste and obtained from the plants.
Olibanum/salai gum (Boswellia serrata), Guggal (Commiphora wightii), Myrrh, Asafoetida, etc. are
the major gum resins of national importance.
Table 1. World EXIM trade aggregation of lac, natural gums, resins, gum-resins and
balsams (Value in Million US$)
Yea r Export Import Re-Export Re-Import
2005 669.12 605.44 9.57 1.10
2006 669.12 559.72 11.77 0.75
2007 470.47 575.00 11.82 1.50
2008 548.82 594.65 13.26 0.12
2009 601.20 526.39 19.94 0.24
2010 745.48 617.75 15.46 0.20
2011 693.28 1127.70 15.12 0.55
2012 716.89 814.98 17.88 0.24
2013 650.94 854.70 17.06 0.31
2014 530.78 816.86 10.43 0.37
Source: ITC calculations based on UN COMTRADE statistics.
e reminder of the Bulletin is structured in four chapters. A brief methodology is given in Chapter
2 and Chapter 3 discusses the relevant information about the production, processing and trade.
Chapter 4 deals with policy implications. Finally, Chapter 5 presents the summary and broad
conclusions emerged out.
6
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
METHODOLOGY
Reliable and periodical assessments of quantities and values of production and market outlook
studies at the national level of Non-Wood Forest Products (NWFPs) are essential to decision-
makers for policy formulation and governing the sustainable development of the sector.
Appropriate and biometrically valid inventories of NWFPs are an essential prerequisite for their
sustainable management and harvesting. However, methodologies for the precise assessment
of forest resources yielding NWFPs are not yet suciently elaborated, neither can they be easily
implemented by resource managers in the eld. Timely and accurate estimation of production
may be helpful for the stakeholders to plan their operations in time. Accuracy in production
estimate would be useful in precision planning by all concerned. Besides knowing the present
status, it would be helpful in regulating imports, planning for enhanced exports, reasonable prices
and reliability in supply of lac based products. However, such statistics do not yet exist for many
countries, neither is the already available data comparable among countries. In most countries,
the current coverage and quality of existing information is inadequate for policy analysis and
decision making at national level.
FAO currently assists national governments and institutions to improve the availability of national
qualitative and quantitative data related to NWFPs. ese eorts include: the development of a
standard framework that describes the key information required for the evaluation of NWFPs
utilization at the country level; the improvement and elaboration of methodologies for the
collection and validation of the required information including more precise product nomenclature
and corresponding product classication; and the compilation of standardized national reporting
formats on NWFPs. From the lessons learned by implementing this national survey, specic case
studies to improve NRGs data gathering methodologies are being carried out in selected states
(Jharkhand, West Bengal, Chhattisgarh and Madhya Pradesh). Hence, under the research project
“Market research for production and marketing of natural resins and gums” a standard reporting
format has been developed to assist in recording statistics on the production and trade of major
NRGs. is approach was used in order to compile NRGs state proles for all states of India. A
brief summary of the assessment is also being published annually as a separate chapter in the
Agricultural Research Data Book, ICAR-IASRI, New Delhi.
e objectives of present methodology are to estimate and update the production, processing and
value addition of NRGs at national level and to compile the latest EXIM data. e approach used in
the present methodology was through survey of local traders and processors, as all NRGs produced
in India are collected/procured through the local traders/societies/forest departments.
Big traders/federations are limited in number but they have close contact with the primary
purchaser who have knowledge of present crop condition and expected output. Survey of all big
traders was helpful in estimation. Further, all the produced products pass through the processing
units. Processors use the current harvested or stocked or imported crop/produce. Survey of
processing units was helpful in estimating quantity of processed products at national level and
validation of production data. Information on market arrival during seasons at important markets
in India was collected through survey of identied major markets. Regular contacts were also
made with the persons/ organizations related to NRGs in India through correspondence, phone
7
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
and personal visit for collection and updating of data. Production estimation was made by the
survey of selected processors, exporters, importers and markets (traders). Export and import
NRGs related products were obtained from Directorate General of Commercial Intelligence and
Statistics (DGCI&S), Kolkata. Five schedules / questionnaire were framed for collection of data
and information during the eld surveys i.e. survey of markets, survey of processing centers, crop-
wise arrival in the market, survey of importers and processing at processing centers. Production
year was considered from April to March (Financial year) and nal production assessment
completed by the month of April. Data and other related information for estimation of production
and processing was collected throughout the year. Tabular analysis and pictorial presentation has
been used to analyze the survey data. Validation of production data at national level was made by
secondary data on quantity processed at national level, export and import gures.
Sampling design and survey area
It’s been said that information is power. is simple cliché underscores the market control and
business success that information yields. Marketing research is about collecting information.
While it applies to a wide range of situations, marketing research gives decision-makers the
information they need to nd solutions to business problems such as consumer satisfaction,
decision, representation and response to completion, etc. Simply put, the solution to most
business problems can be found through marketing research. National level information and
data on NRGs were collected from primary and secondary sources. Survey was made in various
NRG producing areas of the country for collection of data throughout the year during 2014-15.
e requisite data has been collected from respondents at various NRGs markets and processing
centers. For updating the information and data, regular telephonic contacts were also made with
the respondents.
Table 2. States and districts surveyed
States/Country Districts
Andhra Pradesh Vishakhapatnam and East Godavari
Assam Kamrup and Karbi-Anglong
Bihar Patna
Chhattisgarh Balarampur, Bilaspur, Dhamtari, Korba, Korea and Raipur
Delhi Chandni Chauk
Gujarat Vadodara
Jharkhand Bokaro, Dhanbad, Giridih, Khunti, Ranchi, Simdega and West Singhbhum
Karnataka Bangaluru and Uttara Kannada
Madhya Pradesh Balaghat and Seoni
Maharashtra Bhandara and Gondia
Nepal Kathmandu
NE region Garo hills, Imphal, East Kameng, Barapani and Kohima
Odisha Balasore and Sundergarh
Rajasthan Jaipur, Ajmer and Jodhpur
Uttar Pradesh Allahabad
Uttarakhand Bilaspur
Telangana Hyderabad
West Bengal Kolkata and Purulia
8
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Surveys were conducted in 42 districts of 13 states of India and Nepal covering 952 stakeholders
including 90 institutions, 628 farmers, 40 traders, 64 processors/wholesalers/exporters and 130
resource persons were interacted through visits and telephonic conversations during 2014-15.
ese respondents were directly/indirectly concerned with NRG production, processing and value
addition across the country. Name of the states and districts which were covered for survey and
sample size surveyed during the year have been presented in Table 2 and Table 3, respectively.
Category wise and state-wise composition of selected stakeholders is presented in Figure 5 and
Figure 6.
Table 3. Sample size during the survey
States/Country No. of
districts Farmer Market
functionary
Processor/
Manufacturer
Govt. Ocial/
NGOs/ Other
key informant
Total
Andhra Pradesh 2 0 3 0 1 4
Assam 2 51 1 0 6 58
Bihar 1 10 0 0 12 22
Chhattisgarh 6 123 4 6 15 148
Delhi 1 0 0 0 21 21
Gujarat 1 0 2 0 1 3
Jharkhand 7 83 11 6 22 122
Karnataka 2 10 0 0 5 15
Madhya Pradesh 2 0 1 0 0 1
Maharashtra 2 0 1 0 1 2
NE region 5 0 0 0 75 75
Nepal 1 0 6 0 0 6
Odisha 2 1 1 1 0 3
Rajasthan 3 20 5 14 8 47
Telangana 1 0 0 0 6 6
Uttar Pradesh 1 20 2 13 6 41
Uttarakhand 1 0 0 2 1 3
West Bengal 2 6 3 7 8 24
Others NA 304 NA NA 47 351
Total 42 628 40 49 235 952
9
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Market
functionary
4%
Processor/
Manufacturer
5%
Other key
informant
25%
Farmer
66%
Figure 5. Composition of stakeholders under survey programme (Category wise)
Madhya Pradesh
0.1%
Maharashtra
0.2%
Gujarat
0.3%
Odisha
0.3%
Uttarakhand
0.3%
Andhra Pradesh
0.4%
Nepal
0.6%
Telangana
0.6% Karnataka
1.6% Delhi
2.2%
Bihar
2.3%
West Bengal
2.5%
Uttar Pradesh
4%
Rajasthan
4.9%
Assam
6%
NEH
7.9%
Jharkhand
12.8%
Chhattisgarh
15%
Others
38%
Figure 6. Composition of stakeholders under survey programme (State-wise)
10
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
PRODUCTION, PROCESSING AND TRADE IN NRGs
NRG production level during 2014-15 was estimated comparatively higher (1160314.1 tons) than
previous year (837582.8 tons). Other resins and gum production declined during the current year.
Production and trade of NRGs including guar gum, lac, pine resin, gum karaya, dhawda gum and
other natural resins and gums is depicted in Table 4 and Figure 7.
Table 4. Total NRG production and trade during 2014-15 (quantity in tons)
Name of
product Production % share Export % share Import % share
Guar gum* 1094546.50 97.09 521175.90 95.87 125.55 0.15
Lac 16978.00 1.84 6569.17 1.21 0.00 0.00
Pine resin 6699.30 0.85 374.89 0.07 36117.76 41.90
Gum karaya 83.23 0.02 198.02 0.04 586.28 0.68
Other NRGs 1817.47 0.20 15302.53 2.81 49360.22 57.27
Total 1120124.50 100.00 543620.51 100.00 86189.81 100.00
*Estimation of guar gum is based on the conversion of total guar seed production
Guar gum
97.70%
Lac
1.52%
Pine resin
0.60%
Gum karaya
0.01%
Dhawda gum
0.03%
Other gums
0.03%
Other resins and
gums
0.11%
Other
0.18%
Figure 7. Product/major group-wise production share of NRGs
It is evident from the Table 4 that guar gum has a lion’s share in total NRG production and
consequently in export also. For guar gum, India is the leading producer, processor and exporter
country in the world. Hence, a negligible quantity has been imported for research and other
purposes. Similarly, India is the largest producer, processor and exporter of the lac. Export quantity
of lac has been increased by 87% in comparison to previous year export. However, the increase in
value of exported lac was only 18%. About 1.5% production of the total NRGs is contributed by pine
resins, gum karaya and other natural resins and gums. Export under these commodities/groups
has exceeded the production data. ere may be two reasons, rst the exported quantity supplied
from the carry over stock and secondly, raw material imported and exported after processing in
India. Overall, there was about 42% increase in total quantity of NRGs exported and quantity in
11
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
import basket was almost stable. But, price fall of guar gum in international market resulted with
a decline in total foreign exchange earnings as comparison to 2012-13 and 2013-14. e detailed
information about state-wise production processing and trade of natural resins (Lac, pine resin),
natural gums (Gum karaya, guar gum, gum ghatti, gum arabic ) and natural gum resins (Olibanum,
myrrh, asafoetida) is presented below.
A) Natural resins
Lac – a fauna based natural resin
Lac is a natural resin secreted by an insect Kerria
lacca (Kerr) which thrives on the tender twigs of
specic host trees viz., palas (Butea monosperma),
ber (Ziziphus mauritiana), kusum (Schleichera
oleosa), Flemingia semialata, Ficus spp. etc. Raw
lac is the source of three valuable, natural and
renewable products i.e. resin, dye and wax.
Rangeeni and kusmi are the two strains of lac
insect which are classied based on preference
of the insect for specic host plants. Lac
cultivation is an important source of income for
livelihood of the forest and sub-forest dwellers in dierent states. Besides, it has high potential
for generating employment for both men and women in forest and subforest areas of Jharkhand,
Chhattisgarh, Madhya Pradesh, West Bengal, Maharashtra, Odisha and parts of Uttar Pradesh,
Telengana, Andhra Pradesh, Gujarat and NEH region. It is a highly remunerative crop, paying high
economic returns to the farmers and also foreign exchange to the country through its export. Lac
is mainly produced in India, ailand, Indonesia, parts of China, Myanmar, Philippines, Vietnam,
Cambodia, etc. and India is the largest producer of lac in the world.
Lac production in India
In 1950s, the average production of lac in India was about 42320 tons and onward decline trend
in lac production during 1970s (52 %), in 1980s (19 %) and 1990s (4 %) was observed. However,
in revival period of 2000s, 24% increase was recorded. During this decade the eorts in terms of
policy, research and development regarding the lac sector percolated at grass root level and interest
of stakeholders had got the vital support. At present only less than 5% lac host trees are under the
lac cultivation. It is assumed that there are some bottlenecks hampering the growth of the sector.
Estimation of lac production is required by the Government, lac-based industries, lac traders,
entrepreneurs and exporters. e lac growers, processors, traders, exporters and policy makers can
plan their operations in time by using timely and accurate estimations. e cultivation of lac on a
large number of hosts of dierent kinds, its collection by numerous small growers, variations in
the yield depending on the type and size of the host, cultivation practices and climatic conditions
are the major factors inuencing the estimation of lac production. Accuracy in production estimate
would be helpful in precision planning by all concerned. Besides knowing the present status, it
would be helpful in regulating imports, planning for enhanced exports, reasonable prices and
reliability in supply of lac based products.
Photo 1. Lac and its value added products
12
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
On the basis of survey in the markets of dierent lac producing districts and states, the estimated
national production of sticklac during 2014-15 was approximately 16,978 tons. Jharkhand state
ranks 1st followed by Madhya Pradesh, Chhattisgarh, Maharashtra and Odisha. ese ve states
contribute around 93 % of the national lac production (Figure 8). Contribution of Jharkhand
in national lac production is about 51 % followed by Madhya Pradesh (15%), Chhattisgarh
(14 %), Maharashtra (9 %) and Odisha (4 %). Aghani crop ranked 1st with the contribution of 32
% followed by Jethwi (26 %), baisakhi (24 %) and katki (18 %) in total lac production. In the year
2014-15, production of all the crops in comparison to previous year production has decreased and
the decline was 41 %, 23 % and 6 % for jethwi, baisakhi and katki crops, respectively. However, an
increase of 9 % was observed in case of aghani crop .Overall, the total production has declined by
19 % in comparison of the lac production during 2013-14.
Jharkhand
50.83%
Chhattisgarh
14.58%
Madhya Pradesh
14.41%
Maharashtra
8.98%Odisha
4.21%
West Bengal
2.66%
Assam
1.68% Andhra Pradesh
1.00%
Meghalaya
(Garo hills)
0.94%
Uttar Pradesh
0.44%
Gujarat
0.27%
Other
2.65%
Katki
18%
Baisakhi
24%
Jethwi
26%
Aghani
32%
Figure 8. States-wise share in lac production during 2013-14 Figure 9. Crop-wise share in total lac production
Table 5. Lac production in India during 2014-15 (in tons)*
Name of states / Districts Name of lac crop@
Total
Baisakhi Jethwi Katki Aghani
Jharkhand 385 3895 625 3725 8630
Madhya Pradesh 1990 58 495 43 2586
Chhattisgarh 445 373 378 1140 2336
Maharashtra 765 0 760 0 1525
Odisha 40 95 105 475 715
West Bengal 91 30 240 90 451
Assam 45 0 240 0 285
Andhra Pradesh 55 5 105 5 170
Meghalaya (Garo hills) 150 0 10 0 160
Uttar Pradesh 20 0 55 0 75
Gujarat 15 20 2 8 45
Total 4001 4476 3015 5486 16978
@Baisakhi: - Summer crop of rangeeni; Jethwi: - Summer crop of kusmi; Katki: - Rainy crop of
rangeeni; Aghani: - Winter crop of kusmi; $ Andhra Pradesh including Telengana;* See Annexure I for
details.
13
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
At national level, the production of lac was around one per cent more than the average lac
production. Lac production scenario in India and districts producing over 1000 tons of lac during
2014-15 are presented in Table 5 and Table 6, respectively. Share of dierent crops at national level
is presented in Figure 9. Lac production in India during previous ve years is depicted in Figure 10.
Table 6. Top ten lac producing districts in the country (in tons)
District (States) 2013-14 Rank 2014-15 Rank
Ranchi (Jharkhand) 3475 1 2530 1
Simdega (Jharkhand) 2445 2 1910 2
Khunti (Jharkhand) 1790 4 1380 3
Gumla (Jharkhand) 2380 3 1330 4
Seoni (Madhya Pradesh) 1185 5 1165 5
Gondia (Maharashtra) 1010 6 1100 6
Balaghat(Madhya Pradesh) 890 9 882 7
West Singhbhum (Jharkhand) 985 8 860 8
Korba (Chhattisgarh) 1000 7 750 9
Kanker 735 10 510 10
0
5000
10000
15000
20000
25000
2010-11 2011-12 2012-13 2013-14 2014-15
9,035
17,900
19,577
21,008
16,978
Lac production in tons
Figure 10. Lac production in India during previous ve years
e overall, production of the lac in the country has been estimated to be 16,978 tons which is
lower than the previous year production (21,008 tons). e production was under-estimated in
Jharkhand, Chhattisgarh, Maharashtra, West Bengal, Uttar Pradesh and Gujarat. During, current
year 2014-15, the lac production tends to the lowest level during last ve years excluding 2010-
11 gures. It is interesting to mention that the production level of lac had increased from the
lowest level of 9,035 tons during 2010-11 to 17,900 tons (about 100 % increase) during 2011-12
and reached up to the highest level of 21,008 tons during the second year of XII plan period.
But, during 2014-15, it has declined due to various biotic and abiotic stresses. District wise lac
14
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
production statistics and major lac producing areas in the country are presented in Annexure I and
Annexure II, respectively.
Lac processing and value addition in India
Sticklac in small quantity or lots is generally sold in the rural markets (haats) by the lac growers.
Rural markets (haat) in remote lac growing areas operate once or twice in a week. Lac growers,
after harvesting sticklac sell to paikars (primary purchasers). Lac growers, nearer to lac processing
units, also sell their produce directly to processing units. e paikars after collecting, whatever
quantity they get in the course of the market day, sell it to the wholesaler in the same market
or nearby manufacturing centers in bigger lots. Simultaneously, the wholesalers sell the produce
to manufacturers at dierent lac processing centers. After processing, lac is sold for internal
consumption within the country or exported by lac exporters.
West Bengal
44%
Jharkhand
28%
Chhattisgarh
16%
Maharashtra
10%
Others
1%
Madhya Pradesh
1%
Other
2%
Figure 11. States-wise share in lac processing during 2014-15
On the basis of surveys conducted at dierent lac processing centers in the country, the total
quantity of sticklac processed during 2014-15 was 19292 tons which also included the imported
lac and previous carry over stock in India. Information about share of dierent states in lac
processing is presented in Figure 11 and amount of lac processed in India during previous ve
years is depicted in Figure 12. Lac processing centers in India and amount of sticklac processed at
dierent lac processing centers in the country during 2014-15 are presented in Table 7 and Table
8, respectively.
A total 155 lac processing units were functional in West Bengal (102), Chhattisgarh (29), Jharkhand
(16), Maharashtra (6) and Madhya Pradesh (2) during the year 2014-15. In the processing of lac
across the country, Chhattisgarh (31 %), West Bengal (31 %) and Jharkhand (31 %) shared equally
15
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
about 93 % followed by Maharashtra (6.7 %) and Madhya Pradesh (0.3 %). ere were 8 primary
and 6 secondary markets existing at national level, in which annual arrival of sticklac was more
than 500 tons.
Table 7. Major lac processing centers in India during 2014-15
States Districts /Centres
No. of
processing
units
Products made
Chhattisgarh
Dhamtari 15 Seedlac, Button lac, Bleached lac, Aleuritic
acid
Janjgir-Champa 5 Seedlac, Shellac, Bleached lac, Dewaxed
Shellac, Lac dye
Kanker 2 Seedlac
Korba 7 Seedlac, Shellac, Bleached lac, Button lac
Rajnandgaon 1 Seedlac, Shellac
Raipur 1 Bleached lac, Aleuritic acid
Jharkhand
Daltonganj 2 Seedlac
Ranchi and Khunti 10
Seedlac, Button lac, Shellac, Lac dye, Bleached
lac
Simdega 2Seedlac
Saraikela-Kharsawan 1 Bleached lac
West Singhbhum 1 Black Shellac
Madhya
Pradesh
Indore 1 Seedlac, Bleached lac, Varnish
Balaghat 2Seedlac
Seoni 2Seedlac
Hosangabad 1 Seedlac
Maharashtra Gondia 6 Seedlac, Shellac, Gasket S hellac Compound,
Bleached lac
West Bengal
Purulia 93
Seedlac, Shellac, Button lac, Bleached lac,
Aleuritic acid, lac wax, Dewaxed Decolourised
lac
North 24 Paragana 1 Aleuritic acid
Others 20 Lac based value added products
Others 10 Lac based value added products
Total 183
16
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 8. Quantity of sticklac processed in India during 2014-15
StatesDistricts/ Centres
Quantity
processed
(tons)
% change
over last
year
Chhattisgarh Dhamtari 2100 -19.2
Janjgir-Champa 1150 43.8
Kanker 110 -81.7
Korba 1330 -52.5
Rajnandgaon 80 -20.0
Sub total 4770 -30.9
Jharkhand Daltonganj 20 -95.0
Ranchi and Khunti 4340 -14.9
Saraikela-Kharsawan 30 -71.4
Simdega 500 -58.3
West Singhbhum 30 -50.0
Sub total 4920 -28.3
Maharashtra Gondia 1950 30.0
Madhya Pradesh Indore 40 -28.6
Balaghat 30 NA
Seoni 50 NA
Hoshangabad 30 66.7
Sub total 150 102.7
West Bengal Purulia 6593 -3.2
North 24 Paragana 40 NA
Others 710 NA
Sub total 7343 7.8
Others Karnataka, Uttar Pradesh, Delhi, Tamil Nadu 159 NA
Total 19292 -12.9
Name of the primary and secondary markets with annual arrival of over 500 tons and district wise
distribution of lac processing centres across major lac producing districts of India are presented in
Table 9 and Table 10, respectively.
Table 9. Markets with annual arrival of over 500 tons
States Primary markets Secondary markets
Chhattisgarh Bhaisama Bazar Dhamtari, Kathgora and Sakti
Jharkhand Bandgaon, Jaldega and Kolebira Khunti
Maharashtra Barghat region Gondia
West Bengal Balarampur, Jhalda and Tulin Balarampur
17
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 10. Lac processing centers in the major lac producing districts of India
Classications
( Qty. in tons)
No. of
districts* Name of the districts
> 1,000 06
(20)
Gumla, Khunti, Ranchi & Simdega (Jharkhand); Seoni (Madhya
Pradesh) and Gondia (Maharashtra)
500-1000 04
(12)
West Singhbhum (Jharkhand); Balaghat (Madhya Pradesh); Korba
and Kanker (Chhattisgarh)
100-500 17
(100)
Palamau, (Jharkhand); Bastar, Janjgir-Champa Bilaspur,
Raipur and Rajnandgaon (Chhattisgarh); Purulia, Midnapur
(West Bengal); Nabarangpur, Sundergarh (Odisha) and Mandla
(Madhya Pradesh); Garhchiroli and Chandrapur (Maharashtra)
and Meghalaya (Garo hills)
1- 100 22
(16)
Balasore, Keonjhar, Koraput and Mayurbhanj (Odisha); Bhandara
(Maharashtra); Mahasamund,
Ambikapur, Surguja, Raigarh, Dhamtari, Durg & Raigarh
(Chhattisgarh); Garhwa and Latehar (Jharkhand); Annuppur,
Chhindwada, Dindori, Hosangabad, Narshinghpur & Shahdol
(Madhya Pradesh) and Bankura (West Bengal).
< 1 24
(35)
Rest of the districts in Assam, Andhra Pradesh, Bihar, Chhattisgarh,
Gujarat, Jharkhand, Madhya Pradesh, Meghalaya, Odisha, Uttar
Pradesh, Telangana and West Bengal.
Total 73 (183)
* Figure in parentheses are number of processing centers
0
5000
10000
15000
20000
25000
2010-11 2011-12 2012-13 2013-14 2014-15
13600
15892 14594
22149
19292
Quantity (tons)
Figure 12. Lac processing in India during last ve years
18
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Movement in price of lac over the period
e data on prices of rangeeni and kusmi sticklac and seedlac was collected from the lac markets
of Jharkhand (Khunti, Ranchi and Simdega), West Bengal (Balarampur, Purulia), Chhattisgarh
(Dhamtari, Kanker and Korba), Maharashtra (Gondia) and Madhya Pradesh (Seoni and Balaghat)
on quarterly basis. e trend in movement of lac prices have been presented in Figure 13. e prices
of rangeeni and kusmi sticklac as well as seedlac has shown increasing trend from December, 2010
to December, 2012, respectively. Prices rose sharply during the period, due to less production of
lac in other lac producing countries during that period. Consequently, poor import was observed
during previous two years. Regular export demand of lac and low carryover stocks from previous
years dragged up the price level. Subsequently, harvesting of good lac crop was observed during
the previous three years 2011-12 to 2013-14 and crop was supplied to the market. It was observed
that prices of sticklac and seedlac started to decline onwards of December, 2012. Here, at this stage
of dip in price level, TRIFED, Ministry of Tribal Aairs, Government of India, New Delhi appeared
with a policy for price stability and ICAR-Indian Institute of Natural Resins and Gums, Ranchi
provided the technical guidance to the pricing cell of TRIFED for estimation of the cost of lac
cultivation. Government announced Minimum Support Price (MSP) for both kusmi and rangeeni
crop of lac, so that lac growers can get remunerative price during poor market demand or bumper
production period. Pricing Cell had recommended the MSP of ` 230 and ` 320/kg for rangeeni and
kusmi lac, respectively for 2015-16 crop.
0
100
200
300
400
500
600
700
800
900
1000
Price in `kg
-1
Rangeeni Sticklac
Kusmi Seedlac
Kusmi Sticklac
MSP-rangeeni
Rangeeni Seedlac
MSP-kusmi
Figure 13. Movement in prices of sticklac and seedlac
International trade of lac and its value added products
Data on export of lac and its value added products from India were collected from Shellac and
Forest Products Export Promotion Council (SHEFEXIL), Kolkata. e total export of lac and its
value added products during the year 2014-15 was 6569.17 tons which was valued ` 322.50 crores.
Details of export in quantity and value, list of top 15 countries importing Indian lac and export of
19
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
lac has been presented in the Table 11 and Table 12 while direction of the trade, the trend in export
of lac in quantity and value during last seven years and share of dierent items of lac export from
India are shown in Figure 14, Figure 15 and Figure 16, respectively.
Table 11. Export of lac and its value added products from India during 2013-15
Products
Export in 2013-14 Export in 2014-15
Quantity
(tons)
Value
(` lakh)
Quantity
(tons)
Value
(` lakh)
Shellac 3738.61 22556.46 3261.44 14650.36
Aleuritic acid 162.01 10054.42 181.12 5909.11
Seedlac 3709.35 19803.33 2690.29 8770.25
Dewaxed shellac 211.04 1930.74 183.02 1250.94
Bleached lac 258.29 2311.04 142.89 1048.13
Shellac wax 17.80 183.61 15.20 116.28
Kiri lac 0.00 0.00 0.00 0.00
Hydrolysed lac 56.00 14.03 0.00 0.00
Gasket lac 0.00 0.00 0.00 0.00
Lac dye 0.00 0.00 0.00 0.00
Dewaxed bleached shellac 0.00 0.00 31.07 273.48
Garnet shellac 0.00 0.00 52.05 214.87
Shellac(kiri) 0.00 0.00 12.00 15.57
Stick lac 0.00 0.00 0.10 0.60
Total 8153.10 56853.63 6569.17 32249.58
Bangladesh
15%
Switzerland
15%
USA
14%
Pakistan
13%
Germany
8%
Iraq
6% Egypt
5% China
4%
Indonesia
4%
Italy
3%
Spain
3% UK 2%
Japan 1%
France 1.1%
Haiti 0.7%
Canada 0.5%
Others 4.7%
Other
10%
Figure 14. Direction of the trade of lac and its value added products
20
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 12. Top 15 importing countries of Indian lac during 2014-15
Country Quantity (tons) Value
(` lakh) % Share
Bangladesh 1239.30 4909.60 15.2
Switzerland 158.00 4857.87 15.1
USA 1343.81 4581.39 14.2
Pakistan 1102.02 4087.45 12.7
Germany 595.65 2630.89 8.2
Iraq 426.50 1985.65 6.2
Egypt 410.68 1741.73 5.4
China 112.73 1387.06 4.3
Indonesia 255.88 1139.65 3.5
Italy 183.13 837.92 2.6
Spain 148.00 825.13 2.6
U.K. 103.00 665.24 2.1
Japan 95.60 399.96 1.2
France 38.60 297.95 0.9
Haiti 50.50 229.80 0.7
Canada 48.00 145.98 0.5
Others 257.79 1526.30 4.7
Total 6569.17 32249.58 100.00
Export destinations of sticklac, seedlac and shellac during 2014-15 depicted in Table 14. Sticklac
was exported only to Switzerland. Seedlac export was dominated by Pakistan (45%), USA (34%)
and Germany (12%). Bangladesh (33%), Iraq (14%) and Egypt (10%) were the major destination
for Indian shellac. In high value products of lac like aleuritic acid a lions share of Switzerland (82%)
and China (18%) have observed during the current year. USA (84%) and UK (14%) found as the
major importer for bleached lac from India (Table 15). Export destinations of by-products of lac
during 2014-15 depicted in Table 16.
Table 13. Export of lac during previous seven years
Yea r Quantity (tons) Value (` lakh)
2008-09 6968.42 12414.50
2009-10 6422.61 11002.33
2010-11 6339.05 21112.92
2011-12 6858.21 36461.30
2012-13 4361.30 48027.58
2013-14 8158.10 56853.63
2014-15 6569.17 32249.58
21
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 14. Export destinations of sticklac, seedlac and shellac during 2014-15
Country Quantity
(tons) Value (` lakh) % Share
Stick lac
Switzerland 0.10 0.60 100.00
Total 0.10 0.60 100.00
Seedlac
Pakistan 1073.07 3950.28 45.04
USA 1097.39 2978.89 33.97
Germany 289.55 1042.17 11.88
Egypt 61.55 220.50 2.51
Japan, Canada, China and Bangladesh 113.15 366.89 4.18
Total 2690.29 8770.25 100.00
Shellac
Bangladesh 1214.20 4811.31 32.84
Iraq 426.50 1985.65 13.55
Egypt 349.13 1521.23 10.38
Germany 257.55 1312.56 8.96
Indonesia 253.88 1107.27 7.56
Italy 144.23 573.55 3.91
Spain 84.85 526.75 3.60
USA 78.95 479.04 3.27
Haiti 50.50 229.80 1.57
China 44.63 217.34 1.48
U.K . 45.10 200.04 1.37
Japan 40.02 188.45 1.29
Austria 18.00 142.73 0.97
Others 253.92 1354.65 9.25
Total 3261.44 14650.36 100.00
Table 15. Export destinations of high value products of lac during 2014-15
Country/Product Quantity
(tons)
Value
(` lakh)
%
Share
Aleuritic acid
Switzerland 152.50 4820.99 81.59
China 28.00 1046.57 17.71
France & USA 0.62 41.55 0.70
Total 181.12 5909.11 100.00
22
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Country/Product Quantity
(tons)
Value
(` lakh)
%
Share
Bleached lac
USA 123.74 877.73 83.74
U.K . 17.00 148.87 14.20
Australia 1.33 11.06 1.06
U.A.E., Korea (S) & Saudi Arabia 0.83 10.46 1.00
Total 142.89 1048.13 100.00
Dewaxed bleached shellac
U.K . 20.50 156.09 57.08
Korea (s) 4.02 48.22 17.63
USA 3.00 30.96 11.32
Indonesia 1.00 16.44 6.01
Australia 1.95 15.10 5.52
Chile & Sri Lanka 0.60 6.67 2.44
Total 31.07 273.48 100.00
Dewaxed shellac
Italy 34.40 251.54 20.11
USA 40.56 210.95 16.86
France 28.00 180.78 14.45
U.K . 18.40 152.98 12.23
Germany 24.45 152.86 12.22
Spain 14.75 96.70 7.73
Ecuador 6.10 65.80 5.26
Australia 3.10 30.47 2.44
Korea (s) 2.40 30.16 2.41
Pakistan, Indonesia, Malaysia, Taiwan, U.A.E., Switzerland,
Iran, Turkey, Korea and China
10.86 78.71 6.29
Total 183.02 1250.94 100.00
Garnet shellac
Spain 48.40 201.68 93.86
U.K . 2.00 7.26 3.38
Italy 1.50 5.07 2.36
USA 0.15 0.87 0.40
Total 52.05 214.87 100.00
23
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 16. Export destinations of by-products of lac during 2014-15
Country/Product Quantity
(tons)
Value
(` lakh) % Share
Shellac wax
Germany 12.10 107.73 92.65
Italy 3.00 7.77 6.68
Australia 0.10 0.78 0.67
Total 15.20 116.28 100.00
Shellac(kiri)
Germany 12.00 15.57 100.00
Total 12.00 15.57 100.00
Lac is an important natural resins exported by and also imported (from Indonesia, ailand, etc.)
in India. During last 10 years exported value showed that 99.81 % contribution in natural resins
export was from lac (90.47 %), other resins (5.59 %) and gum rosin (3.75 %).
Average annual export quantity of lac during last 10 years (2002-03 to 2011-12) was 9156.75
tons worth `12,334.86 lakh. Similarly, the average annual export quantity of lac was 8,249.85
tons valued `17419.91 lakh during the period 1998-99 to 2012-13. However, during last 15 years
growth in exported quantity was negative for lac and total natural resins group. But, in value terms
the same gure has got a momentum of the signicant growth rate of about 11 % with a high
stability coecient during the period 1998-99 to 2012-13.
Figure 15. Trends in export of lac based products from India
24
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Shellac
45.43%
Seedlac
27.19%
Aleuritic acid
18.32% Dewaxed shellac
3.88%
Bleached lac
3.25% Dewaxed bleached
shellac
0.85%
Garnet shellac
0.67%
Shellac wax
0.36%
Shellac(kiri)
0.05%
Stick lac
0.002%
Other
1.08%
Figure 16. Product-wise export share of various lac based products (in value)
Pine resin –a ora based resin
Rosin is a natural product of pine resins (Pinus
roxburghii Sarg.). e production of rosin has crossed
one million metric tons per year. Rosin is an abundant
and inexpensive hydrocarbon biomass. Rosin and its
derivatives have been used as paper-sizing agents,
emulsiers, surface coatings, chewing gums, tackiers in
adhesives, insulating materials, and additives for printing
inks. Recently, it is also evaluated for application in the
pharmaceutical eld as microencapsulating materials (Lee
& Hong, 2002; Mandaogade, Satturwar, Fulzele, Gogte,
& Dorle, 2002; Wilbon, Chu, & Tang, 2013). e surface
functionalization of Cellulose Nano Crystals (CNCs) by
a family of natural compounds (rosin) was successful,
and the resulting modied materials showed strong
antibacterial activity against Gram-negative bacteria and
weak activity against Gram-positive bacteria. It opens
an avenue for the rational utilization of rosin in the eld
of functional surfaces (Castroa et al 2016). ese may
be useful to develop antibacterial cellulose-based nano-
materials under sustainable and green conditions.
Pine resins are secretion of plants, particularly coniferous trees. ese are valued for their chemical
properties and associated uses like production of varnishes, adhesives, and food glazing agents.
Extensive chir pine forests are found in the Himalayas between an elevation of 1000 to 1900
Photo 2. Pine resin collection using borehole
method
25
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
m. Chir pine yields commercially important oleo-resin which forms the raw material for rosin
and turpentine oil industry in India. Chir pine is widely tapped for resin on commercial basis,
particularly in the hills of Himachal Pradesh, Uttarakhand, Jammu & Kashmir and north-eastern
states. e northern hill states annually produces around 8,000 to 9,000 tonnes of raw rosin
extracted from pine trees.
Major share of resin production comes from Himachal Pradesh and Uttarakhand. Commercially
tapped sources of pine resin are depicted in Table 17. e production of resin in the states during
the year 2013-14 was about 8000 tons and about 85 % of this raw material is processed in the
Rosin and TurpentineoilFactories (RTFs). Indonesia is also supplying rosin to Indian industries
but China was the major supplier of imported product. Indonesian rosin costs around the same
as the Chinese product. Both China and Indonesia have captured more than 50% of the Indian
market. After the global recession, China had dropped its prices in the Indian market. e annual
requirement of rosin in the country was 40,000-50,000 tons.
Table 17. Commercially tapped sources of pine resin: species and country
of production
Sl. No. Species Producing country
1. Pinus caribaeaMorelet Venezuela, South Africa, Kenya
2. P. halepensisMiller Greece
3. P. kesiyaRoyale ex Gordon People’s Republic of China
4. P. massonianaD. Don People’s Republic of China
5. P. merkusiiJungh. & Vriese Indonesia, Viet Nam
6. P. oocarpaSchiede Mexico, Honduras
7. P. pinasterAiton Portugal
8. P. radiataD. Don Kenya
9. P. roxburghiiSarg. India, Pakistan
10. P. sylvestrisL. Russia
11. P. elliottiiEngelm. Brazil, Argentina, South Africa, USA, Kenya
Source: FAO, Rome, Italy
Pine resin production
World production of turpentine is approximately 3.3 lakh tons from all sources; an almost 1.0 lakh
tons (30%) is estimated to be gum turpentine, and the bulk of the remainder is sulphate turpentine.
In India resin production and its value during 2007-08 to 2014-15 is depicted in Figure 17.
Resin production policy
In 2010-11, the cheap Chinese rosin, a solid form of resin obtained from pines and conifers, has
ooded the Indian market and is threatening the prot margins of the rosin business in India.
China had supplied the solid or semi-solid viscous substance at much lower rates as compared
to the domestic product. When the global demand for rosin nosedived following the recession in
Europe, China started dumping its surplus stock in India. Imported rosin, especially from China,
26
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
was badly aecting the Indian industry. Himachal Pradesh Forest Development Corp (HPFDC),
one of the major players in rosin business in the country, is facing tough competition as the buyers
are opting for the imported product. China is marketing rosin at much lower rates in the Indian
market due to global recession. It has dumped its surplus stocks in India.
0
5000
10000
15000
20000
25000
30000
35000
40000
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15
Quantity (tons)
Q
Quantity (tons)
VValue (` millions)
Figure 17. Pine resin production and its value in Himachal Pradesh and Uttarakhand
Total annual production of rosin is about 1.0 million tons world-wide. Of this, it is estimated that
almost 60 %, is gum rosin; most of the remainder, about 35 % is tall oil rosin and the rest is wood
rosin. State wise annual pine resin production and their contribution in the total production is
given in Table 18 and graphical illustration presented in Figure 18.
Uttarakhand: To ensure transparency in allotment of resin to dierent agencies, resin policy
has been formulated and issued in 2003. A total of 50% may be sold by open auction to units
registered in Uttarakhand according to their processing capacity and 25% of the resin may be
sold by open auction on all India basis. Balance 25% may be sold by open auction amongst the
units of Khadi-Gramodyog, Co-operatives, Kumaon Mandal Vikas Nigam and Garhwal Mandal
VikasNigam according to their processing capacity.If some quantity of resin is left unsold as per
the above arrangements it can also be sold by all India open auction.
Himachal Pradesh: e hill state annually produces around 6,000 tonnes of raw rosin extracted
from pine trees, grown mainly in lower hills of Hamirpur, Una, Mandi, Solan and Sirmaur districts.
After processing the raw rosin, the HPFDC markets it and its extract tarpaulin oil is used in the paint
industry. Trade representatives said the HPFDC was marketing rosin at `118-135/kg depending
upon its quality. To clear its stocks, the HPFDC has plan to conduct an auction of rosin at plant in
Nahan and Bilaspur. In 2010, HPFDC got good rates due to low supply from China which was hit
by oods. Due to oods, China had failed to supply the rosin in India and corporation managed to
27
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
sell 6,000 tons and earning a revenue of `70 crore. While in 2009 the HPFDC’s revenue from rosin
sale was `43 crore and it was `32 crore in 2008. e HPFDC was marketing rosin at `118-135/
kg depending upon its quality. e Chinese companies were supplying it at `25-30 less than the
HPFDC rate. In 2010-11 China was supplying rosin at $3,300/t (around `161, 000/t), but these
days its price is around $1,800/t. China is the main player that regulates global prices. Top quality
rosin produced by the HPFDC was made available at `137/kg, excluding taxes and freight, while
the Chinese product was priced at `105/kg, which included import duty. Since the HPFDC is not
following the global trend, it is ending up in accumulating losses.
Table 18. State wise annual pine resin production and their contribution
in the total production (in tons)
Yea r Uttarakhand Himachal Pradesh Total
2008-09 1875 (19.8) 7596 (80.2) 9471.2 (100.0)
2009-10 1961 (20.7) 7500 (79.3) 9460.8 (100.0)
2010-11 1764 (20.1) 7000 (79.9) 8764.1 (100.0)
2011-12 1614 (19.0) 6900 (81.0) 8514.2 (100.0)
2012-13 1467 (17.5) 6894 (82.5) 8361.3 (100.0)
2013-14 1486 (21.6) 5389 (78.4) 6875.3 (100.0)
2014-15 1442 (21.5) 5258 (78.5) 6699.3 (100.0)
Average 1658 (20.0) 6648 (80.0) 8306.6 (100.0)
Figures in parentheses are the percentage of the total
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15 Average
1875 1961 1764 1614 1467 1486 1442 1658
7596 7500 7000 6900 6894
5389 5258
6648
Quantity in tons
Himachal Pradesh Uttarakhand
Figure 18. Pine resin production in Himachal Pradesh and Uttarakhand
28
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Pine resin processing in India
Himachal Pradesh State Forest DevelopmentCorporation Limited,an Undertaking of the Himachal
Pradesh government, came into existence on 25th of March 1974. is Corporation deals mainly
with marketing of timber, fuel wood, pulpwood, bamboo, khair and resin. e entire government
resin tapping work is being done by the Corporation, through modern techniques (Rill method as
of now). It is graded and sold on the basis of colour, the palest shades of yellow-brown being the
better quality. Quality criteria and specications are described in Table 19.
e two Resin & Turpentine Oil Factories, located at Bilaspur and Nahan operational since
four decades, have both skilled and unskilled workers to undertake resin processing and other
diversication activities. Rosin and turpentine oil and other subsidiary products like phenyl,
varnish, black japan etc.are produced from the collected resin. Rosin is the major product obtained
from pine resin. It remains behind as the residue after distillation of the turpentine oil. It is a
brittle, transparent, glassy solid. It is insoluble in water but soluble in many organic solvents.
Table 19. Quality criteria for dierent grades of the rosin
Rosin Grade Full Name
Pale
X Extra White
WW Water White
WG Window Glass
NNancy
Medium
MMary
K Kitty
HHarry
Dark D Dark
BBlack
Pine resin market and price
In any analysis of world production and trade in gum naval stores, the volume of trade taking
place in crude resin needs to be estimated. Until recently, this did not need to be considered as
all resin was processed at origin and rosin and turpentine were the primary products of trade.
However, trade in crude resin has developed over years as the capacity for tapping has fallen in
some of the traditional producing countries, notably Portugal and India. ese countries have
excess processing capacity which can be brought back into production if an economic, external
source of crude resin is found. e absence of capital costs therefore enables the processors of
imported resin to sell the outputs (gum rosin and turpentine) at a price which only need covers
raw material and processing costs, freight, drums and prot.
e sale of crude resin also allows producing countries with a surplus to earn extra revenue without
investing in additional capacity for processing. Price of turpentine oil (vegetable) per litre (naked)
ex-factory on cash basis ranged from ` 87 to ` 88. e price of per kg rosin is given in Table 20
and graphically shown in Figure 19. is price is an ex-factory price including packing charges
excluding taxes and duties, etc.
29
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 20. Grade-wise price of rosin during 2014-15
Rosin Category Grade Full name Rate (`/Kg) @Rate (`/Kg) #
Pale X Extra White 120.0 121.5
WW Water White 118.0 119.5
WG Window Glass 116.0 117.5
NNancy 115.0 116.5
Medium M Mary 114.0 115.5
K Kitty 113.0 114.5
HHarry 112.0 113.5
Dark D Dark 109.0 110.5
BBlack  92.0  93.5
@Packing in TP Barrels #Packing in PGI Barrels
0.0
20.0
40.0
60.0
80.0
100.0
120.0
140.0
X WW WG N M K H D B
Rate/Unit ( in ` )
TP barrels PGI barrels
Figure 19. Price pattern of various grades of Pine resin based products
International trade of pine resin
Details of export in quantity and value, list of the countries importing resin from India and details
of resin supply from various countries during 2014-15 is presented in the Table- 21. e total
export of rosin during the year 2014-15 was 374.89 tons which was valued `520.80 lakh. Similarly,
total import of rosin during the year 2014-15 was 36117.76 tons which was valued `45038.61
lakh. e analysis of EXIM data revealed that the exported quantity of rosin increased 192.1 tons
in 2013-14 to 374.89 tons in 2014-15 and imported quantity of rosin was decreased slightly from
36859.4 tons in 2013-14 to 36117.76 tons in 2014-15.
30
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
During this year in international market, export price of rosin increased by 1.6 %, while import
price rose by 22.5 %. Demand of resin was higher than the quantity processed in India. Hence,
India depends on China, Indonesia, Vietnam and Nepal to meet its domestic demand. About 95 %
gum rosin was supplied from these four neighboring countries of Asia and rest of this came from
Europe and America. Similarly, about 91 % gum rosin was demanded by the major buyers like
China P Rp, Nigeria, Kenya and Nepal.
Table 21. EXIM scenario of rosin during 2014-15
Country Quantity
(tons)
Value (`
lakh)
Value (000
US $) % Share
Export
China P Rp 186.53 228.80 380.94 44.40
Nigeria 90.00 137.80 223.14 26.01
Kenya 38.72 62.70 101.54 11.84
Nepal 23.15 44.70 75.16 8.76
Uganda 19.76 17.70 28.99 3.38
U Arab Emts 7.92 15.70 25.72 3.00
U S A 4.00 7.50 12.71 1.48
Ethiopia 2.50 2.50 4.13 0.48
Mauritius 1.40 1.90 3.05 0.36
Zambia 0.48 1.00 1.65 0.19
Congo D. Rep. 0.20 0.30 0.45 0.05
Burundi 0.08 0.10 0.24 0.03
Others 0.17 0.10 0.22 0.03
Total 374.89 520.80 857.92 100.00
Import
China P Rp 11459.03 16742.67 27668.08 37.43
Indonesia 9960.09 13173.76 21563.88 29.17
Nepal 8536.02 6883.53 11218.98 15.18
Vietnam SOC Rep 4534.27 5964.08 9791.08 13.25
Brazil 1515.60 1992.68 3220.00 4.36
Japan 48.00 122.22 199.91 0.27
Belgium 30.63 91.43 148.13 0.20
Singapore 3.80 32.41 53.96 0.07
Portugal 9.30 19.38 31.51 0.04
France 4.00 10.17 16.71 0.02
U S A, Netherland, Argentina and Spain 17.04 6.29 10.29 0.01
Total 36117.76 45038.62 73922.50 100.00
31
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
China P Rp
44%
Nigeria
27%
Kenya
12% Nepal
9% Uganda
3% U Arab Emts
3%
U S A
1%
Ethiopia
1%
Mauritius
0.36%
Zambia
0.19%
Congo D. Rep.
0.06
Burundi
0.02%
Others
0.02%
Other
0%
Figure 20. Destination wise scenario of rosin during 2014-15
China P Rp
37%
Indonesia
29%
Nepal
16%
Vietnam SOC Rep
13%
Brazil
5%
Japan
0.27%
Belgium
0.20%
Singapore
0.07%
Portugal
0.04%
France
0.02%
Others
0.35%
Figure 21. Source wise scenario of rosin during 2014-15
e destination and source wise demand and supply of the rosin is depicted in the Figure 20 and
Figure 21. Rosin is an important natural resin in the basket of import items. During last 10 years
exported value showed that 3.75 % contribution in natural resins export were from gum rosin. e
average annual export quantity of rosin was 542.78 tons valued ` 343.62 lakh during the period
1998-99 to 2012-13. However, during last 15 years growth rates in exported quantity as well as
value were estimated as negative and these were calculated about 25 % and 21 %, respectively.
Similarly, the average annual import quantity of rosin was 22292.71 tons worth ` 12454.34 lakh
32
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
during the period 1998-99 to 2012-13. Its import had a very high stability with growth rates in
import quantity (10.65 %) as well as value (26.41 %).
Copal
Copals are derived from species of Bursera, Protium (Burseraceae), and Hymenaea. e adhesive
property of copal makes it as a potential coating material. It is evident from Table 22 that more
than 95% of the copal in India has supplied from Indonesia (94.75%) and Philippines (4.42%). A
very little portion of the total imported quantity was exported to ailand (90.21%) and Canada
(9.79%).
Table 22. EXIM scenario of copal during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value (000’ US
dollars) % share
Export
ailand 0.50 0.09 1.48 90.21
Canada 0.08 0.01 0.16 9.79
Total 0.58 0.10 1.64 100.00
Import
Indonesia 1958.29 89.43 1466.71 94.75
Philippines 95.42 4.14 68.36 4.42
Singapore 19.34 0.80 12.95 0.84
Total 2073.05 94.36 1548.02 100.00
Dammar batu
Damar is tapped from the sal tree (Shorea robusta), although some is still collected from the ground
in fossilized form. Annual production of Dammer batu in India is about 80-100 tons. It is usedas
painting and incense material. Destination wise EXIM scenario of dammar batu during 2014-15
is given in Table 23. During 2014-15, more than 95 % of this resin in India has supplied from
Indonesia (54.54%) and ailand (43.91%). Less than one percent of total import quantity was
exported to Jordan (81.34%), Vietnam SOC Rep (10.61%) and Germany (5.29%).
Table 23. EXIM scenario of dammar batu during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Export
Jordan 8.00 1.28 21.56 81.34
Vietnam SOC Rep 0.50 0.17 2.81 10.61
Germany 0.26 0.09 1.40 5.29
Maldives 0.10 0.03 0.47 1.77
Sri Lanka DSR 0.10 0.02 0.26 0.98
Total 8.96 1.58 26.50 100.00
33
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Import
Indonesia 9916.49 243.70 3992.84 54.54
ailand 3593.35 197.61 3214.55 43.91
Vietnam SOC REP 122.47 4.61 75.61 1.03
Lao PD RP 31.00 2.36 37.61 0.51
Total 13663.31 448.28 7320.61 100.00
Mastic gum
e traditional Greek product Chios Mastic Gum or Mastiha, primarily known for its distinctive
avor. is is the dried exudate of the shrub-like tree Pistacia lentiscus L. var. chia of the Anacardiaceae
family, cultivated exclusively in the south of the Greek island Chios. e preparation of traditional
food products based on mastic gum or essential oil, such as chewing gum, confectionery, bakery
products as well as alcoholic and nonalcoholic beverages, is also reported. Mastic Gum shown
to exert benecial eects on a wide range of human disorders. e most comprehensive data so
far have indicated that mastic gum provides protection against gastrointestinal malfunctions
and bacterial infections. Substantial evidence has also suggested that mastic gum exhibits
hepatoprotective and cardioprotective, antiinammatory/antioxidant, and antiatherogenic
properties. In the last decade, an increasing number of studies further evaluated the potential
antiproliferative properties of mastic gum against several types of human neoplasia. In India, it is
imported from Greece (99.11%) and Morocco (0.89%).
B) Natural Gums : Plant exudate based natural gums
Exudate gums possess a unique combination of
functionalities and properties that can never be
matched by any other alternative synthetic polymers,
which makes their complete substitution impossible.
Importantly, these biopolymers are eco-friendly as they
are biodegradable.
e data and information have been collected from the
major collection centers like Nagpur, Bilaspur, Surat,
Ajmer and Delhi. Procurement data available with
Odisha Forest Development Corporation Ltd, Rajasthan
Tribal Areas Development Cooperative Federation Ltd,
Maharashtra State Cooperative Tribal Development
Corporation Ltd, Jharkhand State Minor Forest Produce
Cooperative Development Marketing Federation Ltd,
Ranchi, Jharkhand, Girijan Co-operative Corporation Limited, Visakhapatnam, Andhra Pradesh,
Chhattisgarh Minor Forest Produce (T&D) Fed. Ltd., Raipur, Chhattisgarh, Gujarat State Forest
Development Corporation Limited (GSFDCL), Vadodara was also compiled. e gum tapping is
mainly done in the schedule areas where tribal populations exist. e collection charges to the
Photo 3. Karaya Tree (S. urens) :
Source of gum karaya
34
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
collectors atcollection centres are paidby the purchaser at the rate xed by the Government.
After making the payment of the collection charges to the collectors and the dierence amount
of sale rate and collection rate in the District Union, the purchasersare allowed to transport
the collected gums whereverthey desire. In India, mainly gum karaya (S. urens), dhawada gum
(A. latifolia), babool/babul gum (A. nilotica), prosopis gum (P. juliora), khair gum (Acasia catechu),
Jhingan (Lannea coromandelica), palas (Butea monosperma), char (B. lanzan Spreng) and guggul gum
(C. wightii) are produced. e state wise gum production during 2008-09 to 2014-15 is shown in
Table 24 and graphical illustration is shown in Figure 22.
0
200
400
600
800
1000
1200
2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15
474 510
1023
1149 1144 1144
711
Qunatity in tons
Figure 22. Year wise production scenario of natural gums in India
About 83 % of gum production in the country is contributed by Madhya Pradesh (22.0 %), Andhra
Pradesh (20.3 %), Chhattisgarh (8.8 %), Jharkhand (16.2 %) and Maharashtra (15.4 %). Rest of
the 17 % comes from Gujarat (5.4 %) and other minor gum producing states (11.9%). District wise
gum producing areas in the country are presented in Annexure III. In parts of the Jaipur, Ajmer
and Jodhpur districts Acacia senegal is common. On the upper slopes, the main species are replaced
by Sterculia urens Roxb. Boswellia serrata Roxb. and Lannea coromandelica (Houtt.) Herrill and along
the foothills by Butea monosperma (Lam.) Taub (Roy and Kumar, 1987). Acacia catechu forests are
common in the south-eastern regions. e.g. Baran, Jhalawar, Kota, Tonk , Chittorgarh and Alwar.
Gum karaya (Sterculia urens)
Vernacular names:-Kullu, Kadaya, Kadu, Galgala, Genduli, Tapsi, Panerukh, Kandol, Salad Gum
karaya is the dry exudate of S. urens and S. villosa. It is also collected from S. urceolata and S. foetida
in Indonesia, S. setigera in Africa and from S. caudata in Australia (Gautami and Bhat 1992). It is
also known by the name Indian tragacanth, as it resembles gum tragacanth produced by Astragalus
spp. Gum karaya is one of the least soluble gums used for many industries as given below:-
35
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
i. Pharmaceutical, food, paper, textiles, cosmetic industry
ii. Superior grades in ice-creams
iii. Inks, rubber, linoleum, oil clothes, paper coatings, polishes, lower grades in varnishes, etc.
iv. Engraving processes and in oil drilling operations
v. In dental compounds and colostomy rings.
vi. Acting as mucilage it is also used as a bulk laxative
vii. As a binder, emulsier and stabilizer in food industry.
Table 24. Gum production in major gum producing states of India (in tons)
State /Year 2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15 Average
Andhra Pradesh 75.07 35.05 23.97 34.49 29.87 42.53 26.17 38.17
Chhattisgarh 142.42 236.94 41.64 20.30 23.61 2.54 4.03 67.35
Gujarat 28.00 47.20 27.85 33.57 42.62 54.72 51.50 40.78
Jharkhand 0.00 0.00 240.60 270.40 207.30 90.00 56.00 123.47
Madhya Pradesh 23.20 8.74 286.48 292.28 232.39 207.50 120.00 167.23
Maharashtra 0.00 0.00 200.00 203.40 350.77 539.11 323.79 231.01
Telangana 200.31 175.59 99.67 159.55 102.19 65.02 42.46 120.68
Others 5.00 6.40 103.00 134.60 155.20 143.00 87.00 90.60
Total 474.00 509.92 1023.22 1148.59 1143.95 1144.43 710.94 879.29
Note: ese are the revised dataset and may dier with previous estimates due to validation and updates
Table 25. Gum karaya production in major gum producing states of India
(in tons)
State /Year 2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15 Average
Andhra Pradesh 44.65 22.94 16.59 24.76 16.33 27.94 16.05 24.18
Chhattisgarh 86.42 175.01 38.97 13.85 19.09 1.84 4.03 48.46
Gujarat 0.10 0.10 0.06 0.20 0.20 0.10 0.20 0.14
Jharkhand 0.00 0.00 0.00 49.40 51.50 4.40 4.00 15.61
Madhya Pradesh 23.20 8.74 6.48 12.18 8.19 12.10 10.00 11.56
Maharashtra 0.00 0.00 0.00 23.20 10.00 13.00 5.00 7.31
Telangana 194.58 173.59 98.51 157.31 101.59 64.38 38.95 118.42
Others 5.00 6.40 3.00 4.00 5.00 5.00 5.00 4.77
Total 353.95 386.79 163.61 284.90 211.90 128.76 83.23 230.45
Gum karaya production in India
Overall production has decreased from 6838 tons in 1975–1976 to 130.2 tons in 2014-15. During
this period the price increased from `7.4/kg to `110/kg. e gum production across various states
has been presented in Table 25 and Figure 23. e gum producing forest divisions in the Chhattisgarh
36
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
are Bilaspur (Mugeli, Dindori, Ratanpur, Takhatpur, Lormi), Raipur, E. Surguja (Balarampur),
Marvahi (Kota), S. Surguja, Raigarh (Khamariya,), Dharmajaygarh, Rajnandgaon, Mahasamund,
Dhamtari, Korea, Sukma, Bijapur, Dantewada and W. Bhanupratapur.In Jharkhand, the karaya
gum is produced in the Latehar (Garu, Mahuadar, Herhanj, Balumath, Barwadih, Lesliganj,
Chhipadohar and Richughutu), Chatra (Lawalang, Pratappur and Kanti), Garhwa (Ramkanda and
Bhandaria), Daltonganj (Panki and Chhatarpur) and West Singhbhum (Chakradharpur). Annual
average production of karaya gum during last seven years in India is illustrated in Figure 24.
Collection and grading of gum karaya
During 2014-15, a Minimum Support Price (MSP) of `10800 per qt for gum karaya was declared
by Pricing Cell, TRIFED, Ministry of tribal aairs, Govt. of India. e scheme is initially being
implemented in the states having scheduled areas and scheduled tribes in the fth schedule of
the Constitution of India (except Himachal Pradesh) namely Odisha, Jharkhand, Chhattisgarh,
Maharashtra, Madhya Pradesh, Gujarat, Andhra Pradesh and Rajasthan.
118.42
48.46
24.18
15.61
11.56
7.31
4.77
0.14
0.00 20.00 40.00 60.00 80.00 100.00 120.00 140.00
Telengana
CG
AP
Jharkhand
MP
Maharashtra
Others
Gujarat
Quantity in tons
Figure 23. State-wise average production of karaya gum
International trade of gum karaya
Export of gum karaya from India during previous years is depicted in Figure 25 while domestic
demand from and overseas supply in India is given in Table 26. During 2014-15, gum karaya
was exported across the globe in 26 countries. ere is high demand of gum karaya from India.
Japan (52.96 %), France (13.68 %), Pakistan (8.57 %), Switzerland (7.05%), Taiwan (2.23%),
Spain (1.82%), ailand (1.76%), Syria (1.42%), U K (1.25%) and United State (0.93 %) remained
as major export destinations during 2014-15 and about 97 % gum karaya supplied to these top
12 destinations. Brazil, Indonesia, Tunisia, Egypt A RP, Jamaica and Singapore were the other
destinations (Figure 26). Ghana and Mali has supplied 80 % raw gum karaya and about 20 % supply
of good quality gum karaya was from USA. Source wise import gures are presented in Figure 27.
37
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
354
387
164
285
212
129
83
0
50
100
150
200
250
300
350
400
450
2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15
Quantity in tons
Figure 24. Gum karaya production in India
Table 26. Export and import of gum karaya during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Export
Japan 79.50 409.41 670.10 52.96
France 41.03 103.17 173.08 13.68
Pakistan IR 25.66 65.76 108.48 8.57
Switzerland 22.20 55.04 89.25 7.05
Malaysia 5.00 23.01 37.30 2.95
Germany 5.00 19.56 32.11 2.54
Taiwan 2.00 17.71 28.23 2.23
Spain 3.00 13.65 23.01 1.82
ailand 1.80 13.68 22.24 1.76
Syria 3.00 10.64 17.94 1.42
U K 1.38 9.69 15.87 1.25
U S A 1.50 7.17 11.76 0.93
Brazil 1.00 3.91 6.26 0.49
Indonesia 0.50 3.72 6.08 0.48
Tunisia 0.90 3.40 5.48 0.43
Egypt A RP 2.00 3.03 4.85 0.38
Jamaica 1.00 2.59 4.17 0.33
Singapore 0.25 1.60 2.67 0.21
Others 1.32 3.90 6.35 0.51
Total 198.02 770.63 1265.22 100.00
Import
Ghana 544.00 276.78 462.52 70.41
U S A 5.58 78.59 128.46 19.55
Mali 36.70 39.31 65.99 10.04
Total 586.28 394.67 656.96 100.00
38
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
0
500
1000
1500
2000
2500
3000
3500
4000
4500
2010-11 2011-12 2012-13 2013-14 2014-15
Qty (tons) Value (` Lakh)
Figure 25. Export of gum karaya from India
Japan 53%
France 13%
Pakistan IR 9%
Switzerland 7%
Malaysia 3%
Germany 3%
Taiwan 2%
Spain 2%
ailand 2%
Syria 1% U K 1%
U S A 1%
Others 3%
Ghana
70%
U S A
20%
Mali
10%
Figure 26. Destination wise scenario of gum karaya during 2014-15
Figure 27. Source wise scenario of gum karaya during 2014-15
Dhawda gum/Gum Ghatti (A. latifolia)
Vernacular names :- Gum Ghatti, Dhauda, Dhaura, Bakli, Tirman, Vekkali, Dhanda, Damado
Dhawda gum is the dry exudate of A. latifolia. It has a glassy fracture and occurs in rounded tears
which are normally less than 1 cm in diameter. It often occurs in larger vermiform masses. e
colour of the exudate varies from light to dark brown; the lighter the colour the better the quality.
Dhawda gum is used by many industries. It is used as an emulsier and stabilizer in beverages
and butter containing table syrups; avour xative for specic applications; to prepare powdered,
stable, oil-soluble vitamins; as a binder in long-bered light weight papers; as an emulsier of
petroleum and non petroleum waxes to form liquid and wax paste emulsions; to prepareuniform
and discrete prills of cross-linked polystyrene; used as drilling mud conditioner and the acidizing
of oil wells and also used in powdered explosives to improve resistance to water damage.
39
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Dhawda gum production in India
Dhawda gum is produced in the states of Chhattisgarh, Gujarat, Jharkhand, Madhya Pradesh,
Maharashtra and Andhra Pradesh. State-wise production data are shown in Table 27. It is evident
from the Figure 28 that total collection of Dhawda gum increased from 2.7 tons in 2011-12 to
448.41 tons in 2014-15.
Table 27. Dhawda gum production in major gum producing states of India (in tons)
State /Year 2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15 Average
Andhra Pradesh 0.60 0.30 0.80 0.50 0.60 0.80 1.00 0.66
Chhattisgarh 39.30 42.50 1.60 3.01 2.62 0.20 0.00 12.75
Gujarat 0.20 0.50 0.30 2.33 1.30 1.40 1.30 1.05
Jharkhand 0.00 0.00 0.00 20.50 30.20 25.40 12.00 12.59
Madhya Pradesh 0.00 0.00 0.00 30.10 24.20 20.80 10.00 12.16
Maharashtra 0.00 0.00 0.00 40.20 240.77 334.11 230.79 120.84
Others 0.00 0.00 0.00 50.60 80.20 65.70 40.00 33.79
Total 40.10 43.30 2.70 147.24 379.89 448.41 295.09 193.82
Collection and grading of dhawda gum
e collection rate for dhawada gum for the year 2014-15 is around `500/kg for Grade-I, `200/kg
for Grade-II, `100/kg for Grade-III.
40.10
43.30 2.70
147.24
379.89
448.41
295.09
0.00
50.00
100.00
150.00
200.00
250.00
300.00
350.00
400.00
450.00
500.00
2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15
Quantity in tons
Figure 28. Year wise production scenario of gum ghatti in India
Gum Arabic (Acacia senegal)
Gum arabic, also known as Acacia gum, is a natural gummade of the hardenedsap of various
species of theAcaciatree. Gum acacia is a deciduous shrub, growing upto 15 m tall and usually
40
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
branching out from the ground. Gum arabic is predominantly collected from two related species,
namely Acacia senegal and Vachellia (Acacia) seyal. Producers harvest about 80% of the gum
commercially from wild trees, mostly in Sudan. Gum exudes from the duct of the inner bark and
is tapped in the hot season when the trees are under stress and annual gum production in India is
about 5-10 tons. It is tapped in the hot season (May-June) when the trees are stressed. Tapping
begins when trees are 4-5 years old. It commences after leaf fall and ceases during the colder
months of the dry season. Annual yields stand at 188-2856 g for young trees and 379-6754 g for
older trees (7-15 years). Gum production is excellent on poor soils and higher in stressed trees.
e uses of gum arabic are linked to its two main characteristics: its high solubility in water
and its low viscosity comparatively. is gives gum arabic eminent qualities as an emulsier,
stabilizer, thickener or adhesive of a non-toxic nature and its low caloric value and high soluble
bre, which are of major importance in nutrition and dietary applications. Pharmaceutical
drugsandcosmeticsalso use the gum as abinder, emulsifying agent, and a suspending or viscosity
increasing agent. ere are two main types of gum arabic used as hydrocolloids: Acacia senegal and
Acacia seyal. Senegal grade is an emulsier, much used in beverage emulsions. Seyal grade is used
in confectionery, coatings and as a soluble dietary ber.
International trade of gum Arabic
e three main producing countries are Sudan, Chad and Nigeria, which cover about 95% of the
global gum Arabic export market (Network for Natural Gums and Resins in Africa, 2004).
0
50
100
150
200
250
300
350
400
450
500
Bangladesh Pr
Indonesia
U S A
U K
Bolivia
Kenya
Iran
China P Rp
Nepal
France
U Arab Emts
Myanmar
Guatemala
Ecuador
Kuwait
Others
478
263
161 145 122 113
80 78 56 44 40 36 27 24 23
121
Value (000' US dollars)
Figure 29. Destination wise scenario of gum Arabic during 2014-15
41
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Destination wise export and source wise import share is depicted in Table 28. ere is high demand
of gum Arabic from and in India also. About 400 tons of gum Arabic exported to Bangladesh Pr
(26.46 %), Indonesia (14.53 %), and USA (8.88 %), UK (8.03%), Bolivia (6.73%), and Kenya (6.25
%) during 2014-15. About 71 % gum Arabic supplied to these top 6 destinations (Figure 29).
Table 28. Export and import of gum Arabic during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Export
Bangladesh Pr 81.73 28.81 478.34 26.46
Indonesia 31.20 15.77 262.64 14.53
U S A 38.22 9.64 160.51 8.88
U K 1.65 8.86 145.14 8.03
Bolivia 15.00 7.55 121.65 6.73
Kenya 37.25 6.94 112.95 6.25
Iran 13.00 4.83 79.50 4.40
China P Rp 24.00 4.84 77.96 4.31
Nepal 98.36 3.48 55.92 3.09
France 1.04 2.67 43.94 2.43
U Arab Emts 8.11 2.44 39.69 2.20
Myanmar 5.30 2.21 35.63 1.97
Guatemala 8.00 1.65 26.79 1.48
Ecuador 1.20 1.41 23.54 1.30
Kuwait 6.71 1.40 22.50 1.24
Others 27.87 7.42 121.06 6.70
Total 398.65 109.93 1807.76 100.00
Import
Sudan 11919.04 469.65 7671.22 36.30
Nigeria 9668.77 330.58 5481.34 25.94
Cameroon 4109.30 164.79 2701.42 12.78
Chad 1912.00 116.16 1894.49 8.97
France 224.05 46.87 763.32 3.61
Ghana 1133.38 36.43 602.14 2.85
U K 102.38 35.79 590.32 2.79
Ethiopia 438.00 20.23 331.64 1.57
Senegal 740.43 19.28 317.89 1.50
Tanzania Rep 296.45 13.40 216.45 1.02
Others 463.94 34.07 559.90 2.65
Total 31007.75 1287.23 21130.14 100.00
42
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
e international market for gum Arabic is subject to dierent trends and uctuations, determined
by an increasing demand, variable capacity of African producer countries to stabilize the supply,
variability of quality and prices and use of substitutes by importing countries, which can negatively
aect the gum Arabic market demand. During 2014-15, gum arabic is exported across the globe
in 49 countries. Sudan, Nigeria, Cameroon and Chad have supplied 84 % raw gum Arabic and rest
16 % was supplied from France, Ghana, UK, Ethiopia, Senegal, Tanzania Rep and others (Figure 30).
0
1000
Sudan
2000
3000
4000
5000
6000
7000
8000 7671
5481
2701
1894
763 602 590 332 318 216 560
Value (000' US dollars)
Nigeria
Cameroon
Chad
France
Ghana
U K
Ethiopia
Senegal
Tanzania Rep
Others
Figure 30. Source wise scenario of gum Arabic during 2014-15
International trade of Asian gum
ere is high demand of Asian gum from and in India also. Destination wise export and source
wise import share of Asian gum is depicted in Table 29 and graphical presentation of direction of
trade is illustrated in Figure 31.
During 2014-15, about 400 tons of Asian gum was exported from the country. Germany
(30.38 %), Belgium (22.40 %), Japan (15.16 %), South Africa (5.91%), and Malaysia (5.01 %)
remained as major export destinations. About 79 % gum Asian supplied to these top 5 destinations.
During 2014-15, Asian gum was expor ted across the globe in 34 countries. Indonesia and Singapore
have supplied 100 % raw Asian gum in Indian Market.
43
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
0
100
200
300
400
500
600
700
800
900 881
649
439
171
Germany
Belgium
Japan
South Africa
Malaysia
U K
U S A
Spain
Netherland
Bangladesh Pr
Turkey
Russia
France
Others
Lithuania
145 102 94 85 47 40 37 36 33 32
106
Value (000' US dollars)
Figure 31. Destination wise scenario of Asian gum during 2014-15
Table 29. Export and import of Asian gum during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Export
Germany 118.00 54.10 880.52 30.38
Belgium 84.41 39.81 649.42 22.40
Japan 34.20 26.71 439.31 15.16
South Africa 26.28 10.44 171.19 5.91
Malaysia 20.50 8.87 145.10 5.01
U K 26.14 6.34 102.06 3.52
Lithuania 18.00 5.81 94.16 3.25
U S A 13.34 5.20 84.71 2.92
Spain 4.40 2.92 47.26 1.63
Netherland 6.18 2.41 40.07 1.38
Bangladesh Pr 13.78 2.27 37.13 1.28
Turkey 4.00 2.21 36.27 1.25
Russia 3.00 2.00 32.90 1.13
France 10.00 1.94 32.47 1.12
Others 23.37 6.49 106.16 3.66
Total 405.60 177.53 2898.72 100.00
44
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Import
Indonesia 25.00 1.98 32.58 63.10
Singapore 21.97 1.17 19.05 36.90
Total 46.97 3.15 51.63 100.00
International trade of African gum
In India, African gum is supplied from Chad (63.66%) and Senegal (36.34%). It is evident from
the Table 30 that Kenya (98.38%) and Uganda (1.62%) are the major export destination of African
gum.
Table 30. Export and import of African gum during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Export
Kenya 0.49 0.08 1.28 98.38
Uganda 0.01 0.00 0.02 1.62
Total 0.50 0.08 1.30 100.00
Import
Chad 205.00 5.90 97.98 63.66
Senegal 110.00 3.39 55.92 36.34
Total 315.00 9.29 153.91 100.00
Jhingan gum (Lannea coromandelica)
Lannea coromandelica (Jhingan, Indian Ash Tree, Moi tree) is a deciduous tree which grows upto 14
m height. Jhingan gum is mostly obtained from natural exudation and sometimes by tapping and
annual gum production is about 60-80 tons in India. It is used as an alternative to gum arabic in
food and other purposes. It was found that the emulsion containing jhingan gum produced more
stable emulsion at a much lower amount as compared to the emulsion stabilized by gum acacia.
Production and export performance of agarbathi industry depends on availability of forest based
raw materials. Indiscriminate collection is leading to overexploitation and shortage of raw materials
particularly, the basic binding material which is the bark (Jigat) of slow growing evergreen tree
Machilus macrantha. Amongst the various plant materials screened, Lannea coromandelica syn.
Odina wodier (Moyna or Jinghan) gum in combination with Jigat in 1:1 ratio was found to be a good
partial substitute and agarbathis rolled using this mixture cost 20% less than those rolled with
pure jigat.
45
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Saja (Terminalia tomentosa)
Terminalia tomentosa (Saja, Saj) is a tree growing upto 30 m tall, with a trunk upto diameter of 1
m. A copious transparent gum exudes in large globular tears from the trunk. In India, the annual
gum production is about 30-40 tons. It is used as incense and cosmetic. Terminalia tomentosa has a
remarkable attribute as some members of the species store water in the dry season.
Tragacanth (Adracanth) (Astragalus gummifer)
Tragacanth gum (TG) is a natural and acidic polysaccharide that secretes spontaneously or with
a scratch on the dierent species of Astragalus plant. Astragalus gummifer is the most famous
species of this plant. TG obtained in two dierent forms: ribbon and ake. e name tragacanth is
originated from two Greek words of tragos (goat) and akantha (thorn) showing its curved shape.
TG is almost insoluble in water, but swells to form a sti gel due to its structure. TG has been
accepted since 1961 as generally recognized as safe (GRAS) at the level of 0.2–1.3% and in Europe
has E-number E413 on the list of additives approved by the Scientic Committee for Food of
the European Community. TG is widely used in various elds such as food, pharmaceuticals and
cosmetics industries acting as the stabilizer, emulsier, thickener, fat replacer and cross-linking
agent. In recent years, several works are reported on the application of TG in the wound and
burn dressing, synthesis of silver nanoparticles, hydrogel membranes, superabsorbent hydrogel,
matrix of verapamil hydrochloride tablets, matrix for cell immobilization and drug encapsulation.
Encapsulation is a technique of preparing the tiny package materials such as pharmaceuticals,
enzymes, dyes and avorsto protect from the external environment. EXIM scenario of Tragacanth
(Adracanth) during 2014-15 is given in Table 31.
Table 31. Export and import of Tragacanth (Adracanth) during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Export
Tanzania Rep 0.10 0.01 0.24 60.05
U S A 0.02 0.01 0.15 37.40
Israel 0.00 0.00 0.01 2.54
Total 0.12 0.02 0.39 100.00
Import
U A E 2.32 0.16 2.74 53.66
Germany 0.02 0.15 2.37 46.34
Total 2.35 0.31 5.11 100.00
Xanthun gum
Xanthan gum is a polysaccharide secreted by the bacterium Xanthomonas campestris, used as
afood additiveandrheologymodier,commonly used as a food thickening agent. Xanthan gum
was discovered byAllene Rosalind Jeanes. It was brought into commercial production under the
46
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
trade name Kelzan in the early 1960s.It was approved for use in foods after animal testing in
1968. It is accepted as a safefood additivewithE number E415. Xanthan gum derives its name
from the strain of bacteria used during the fermentation process, Xanthomonas campestris. X.
campestrisis the same bacterium responsible for causingblack rotto form on broccoli, cauliower,
and other leafy vegetables. e bacterium forms a slimy substance that acts as a natural stabilizer
or thickener. In foods, xanthan gum is most often found in salad dressings and sauces. It helps to
prevent oil separation by stabilizing theemulsion, although it is not anemulsier. Xanthan gum
also helps suspend solid particles, such as spices. Also used in frozen foods and beverages, xanthan
gum helps create the pleasant texture in many ice creams, along withguar gumandlocust bean
gum. Toothpaste often contains xanthan gum, wherein it serves as a binder to keep the product
uniform.EXIM scenario of Xanthum gum during 2014-15 is given in Table 32.
Table 32. Export and import of Xanthun gum during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Export
Ethiopia 0.58 0.48 7.83 61.61
Congo D. Rep. 0.30 0.19 3.10 24.40
U A E 0.03 0.06 0.89 6.96
Nepal 0.05 0.03 0.46 3.59
Ghana 0.05 0.03 0.44 3.43
Italy 0.00 0.00 0.00 0.01
Total 1.00 0.77 12.72 100.00
Import
China P Rp 79.75 15.75 257.03 95.36
Poland 0.53 0.51 8.37 3.10
U S A 0.20 0.25 4.11 1.53
U A E 0.00 0.00 0.02 0.01
Total 80.48 16.52 269.52 100.00
Plant Exudate: Other gums
e other important gums are Gum arabic (Acacia senegal), Gum kondagogu (Cochlospermum
gossypium),saja (Terminalia tomentosa), Jhingan (L. coromandelica), babool (A. nilotica), palas (B.
monosperma), khair (A. catechu) and char (B. lanzan Spreng). Gujarat is major guggal gum and
prosopis gum/babool gum producing state. Gum kondagogu is a naturally occurring nontoxic
polysaccharide derived as an exudate from the bark ofCochlospermum gossypium(Bixaceae family),
a native tree of India. e total production of other gums across various states was around 352.0
tons during 2014-2015 (Table 33).Graphically demonstrated in Figure 32.
47
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 33. Production of other gums in India (in tons)
State /Year 2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15 Average
Andhra Pradesh 29.83 11.81 6.59 9.23 12.94 13.79 9.12 13.33
Chhattisgarh 16.70 19.43 1.07 3.44 1.90 0.50 0.00 6.15
Gujarat 27.70 46.60 27.49 31.04 41.12 53.22 50.00 39.60
Jharkhand 0.00 0.00 240.60 200.50 125.60 60.20 40.00 95.27
Madhya Pradesh 0.00 0.00 280.00 250.00 200.00 174.60 100.00 143.51
Maharashtra 0.00 0.00 200.00 140.00 100.00 192.00 88.00 102.86
Telengana 5.73 2.00 1.16 2.24 0.60 0.65 3.50 2.27
Others 0.00 0.00 100.00 80.00 70.00 72.30 42.00 52.04
Total 79.95 79.83 856.91 716.45 552.16 567.26 332.62 455.03
0.00
50.00
100.00
150.00
200.00
250.00
300.00
Madhya Pradesh Maharashtra Jharkhand Others
2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15
Figure 32. Total production of other gums across various states in India
Collection price and grading
e collection rate of jhingan, khair and baboolgum ranged from ` 2000 to 5000/qt. Retail packing
price of the babul gum and salai dhoop in Gujarat increased from `170/kg to `200/kg and ` 250/
kg to `400/kg, respectively. While acacia gum has been harvested in Arabia,Sudan, andWest
Asia since antiquity, sub-Saharan acacia gum has a long history as a prized export. e gum
exported came from the band of acacia trees that once covered much of theSahel region: the
southern littoral of theSahara Desertthat runs fromthe Atlanticto theRed Sea. Today, the main
populations of gum-producing Acaciaspecies are harvested inMauritania,Senegal,Mali,Burkina
Faso,Niger,Nigeria,Chad,Cameroon,Sudan,Eritrea,Somalia,Ethiopia,KenyaandTanzania.
48
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 34. Collection price of other gums in India (grade wise)
Natural gum Scientific name Grade Price/Kg (in `)
Guggul gum C. wightii I 600
Guggul gum C. wightii II 250
Guggul gum C. wightii III 150
Salai gum B. serrata I 125
Khiar gum A. catechu I 50
Babool gum A. nilotica I 40
Babool gum A. nilotica II 30
Babool gum A. nilotica III 27
Other 30-40
Acacia senegalis tapped for gum by cutting holes in the bark, from which a product calledkordofanor
Senegal gum is exuded.Seyalgum, fromAcacia seyal, the species more prevalent inEast Africa,
is collected from naturally occurring exudations on the bark. Traditionally harvested by semi
nomadic desert pastoralists in the course of theirtranshumancecycle, acacia gum remains a main
export of several African nations, including Mauritania,Niger,Chad, andSudan. e hardened
exudations are collected in the middle of the rainy season (usually in July), and exported at the
start of the dry season (November). Grade-wise collection price of other gums in India is depicted
in Table 34.
Regulations and governance
On the basis of regulations and governance issues for trading of NTFPs including natural resins and
gums, the Government has classied as nationalized items, monopoly items and non-nationalized
items. State Government classies NTFPs as nationalized items, which can only be traded /
marketed by Forest Department and it may vary from state to state. Four major gums namely
karaya/kullu gum (S. urens), gum ghatti/ dhawada gum (A. latifolia), babool gum (A. nilotica) and
khair gum (A. catechu) are categorized under nationalized gums in the some states. A trade wing
of the Forest Department’s trade division deals with its marketing. e forest Department gives
the monopoly rights for value added processes and marketing of NTFPs to some agency under
lease agreement, based on sustainable harvesting and economic value. Apart from nationalized
and monopoly items, remaining NTFPs are open to all. Primary collectors or their associations
must get permits from the Divisional Forest Ocer (DFO) to transport and market the produce.
e state-wise list of gums producing trees and respective categories is presented in Annexure IV.
Seed based natural gum-Guar gum
India is native of guar or cluster bean. It is used as vegetable by households, as cattle food (whole
green plant), as cattle feed (churi and korma) and as a green manure crop in agriculture. Guar gum
comes from the endosperm (30 %) of the seed of the legume plant Cyamopsis tetragonoloba; an
annual plant, grown in dry regions of India . ere are var ious grades of guar gums pure or derivative.
Guar gum is a white to creamy coloured, free owing powder without any extraneous matter.
Its ability to suspend solids, bind water by hydrogen bonding, control the viscosity of aqueous
49
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
solutions, form strong tough lms have accounted for
its rapid growth. e growing season of guar is 14 to
16 weeks and requires reasonably warm weather and
moderate ashing rainfall with plenty of sunshine. Too
much rain can cause the plant to become more ‘leafy’
resulting thereby reducing the number of pods or the
number of seeds per pod which aects the size and yield
of seeds. e crop is generally sown after the monsoon
rainfall in the second half of July to early August and is
harvested in late October to early November. e guar
is a naturally rain fed crop. Depending on the monsoon
rainfall the total size of guar crop varies from year to
year. After harvesting, when the pods become dry
through sunlight, they are beaten o and during this
process, the seeds come out of the pods. Peak arrival of
the crop in the market is seen in October to December
while lean arrival in the months January to May.
Guar seed production in India
India contributes about 80 % to the world guar production and Pakistan is the second largest
producer. e all India area, production and yield of guar seed has been presented in Table 35.
State wise area, production and yield of guar seed has been presented in Table 36. In major guar
producing area like Rajasthan, Haryana and Gujarat guar crop is grown after the rst shower of
monsoon in July to early August and is harvested in late October early November. It grown as the
rain fed crop and its production is totally depends on the performance of monsoon. e decline in
production due to decient rainfall during 2009-10 also conrmed this fact. e price hit all time
high in the spot and futures market during this period.
Table 35. All India area, production and yield of guar seed and potential of
guar gum production
(Area- thousand ha, Production- thousand tons, Yield- kg/ha,)
Yea r Guar seed Guar gum
Area Production Yield Potential production
2008-09 3862.5 1935.8 501 645.3
2009-10 2995.2 594.7 199 198.2
2010-11 3382.2 1965.3 581 655.1
2011-12 3444.2 2217.6 644 744.3
2012-13 5151.7 2460.7 478 819.0
2013-14 5887.7 3388.4 576 1129.1
2014-15 5359.8 3284.0 613 1094.6
Source: Directorate of Economics and Statistics, MoA, GoI; www.rsamb.rajasthan.gov.in
Photo 4. Guar plant
(C. tetragonoloba ) with pods
50
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 36. State wise area, production and yield of guar seed during
previous seven years
State 2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15 Average
State wise area of guar seed during previous seven years ( thousand ha)
Gujarat 150.4 132.7 124.6 128.3 207.1 308.1 278.0 189.9
Haryana 370.0 252.0 256.0 215.0 388.0 481.0 406.0 338.3
Punjab 27.8 21.8 24.0 25.0 26.0 28.2 48.6 28.8
Rajasthan 3318.1 2586.8 2980.9 3094.2 4533.3 5070.9 4625.2 3744.2
Uttar Pradesh 2.5 2.5 2.4 2.5 2.5 2.5 2.0 2.4
All India 3868.8 2995.8 3387.9 3465.0 5156.9 5890.7 5359.8 4303.6
State wise production of guar seed during previous seven years (thousand tons)
Gujarat 52.7 44.7 73.0 74.5 128.5 133.6 167.0 96.3
Haryana 602.0 329.0 333.0 290.0 278.0 369.0 338.0 362.7
Punjab 22.1 16.8 18.0 20.0 22.0 21.2 33.4 21.9
Rajasthan 1261.0 201.0 1540.5 1846.6 2026.7 2861.9 2744.0 1783.1
Uttar Pradesh 2.1 2.1 2.0 2.0 2.0 2.0 1.6 2.0
All India 1939.9 593.6 1966.5 2233.1 2457.2 3387.7 3284.0 2266.0
State wise yield of guar seed during previous seven years (Kg/ ha)
Gujarat 350 337 586 581 620 434 601 507
Haryana 1627 1306 1301 1349 716 767 833 1072
Punjab 795 771 750 800 846 752 687 762
Rajasthan 380 78 517 597 447 564 593 476
Uttar Pradesh 854 827 833 800 800 800 800 817
All India 501 198 580 644 476 575 613 527
Source: Directorate of Economics and Statistics, MoA, GoI
Rajasthan has been a leading state in production as well as processing of guar seed in India followed
by Haryana and Gujarat. In Rajasthan, the districts where guar crop cultivated are Churu, Bikaner,
Jaisalmer, Barmer, Nagaur, Hanumangarh, Jodhpur, Sri Ganganagar, Jaipur, Sirohi, Dausa,
Jhunjhunu and Sikar. e districts in Haryana indulged in the production of guar are Bhiwani,
Gurgaon, Mahendragrh and Rewari and the districts in Gujarat are Kutch, Banaskantha, Mehsana,
Sabarkantha, Vadodara and Ahmadabad. Cultivation of guar crop has been started in newer areas
like Andhra Pradesh including Telengana and other southern states also.
Guar seed processing and value addition in India
India is leading in guar gum production due to its well established guar gum industry in Jodhpur,
Rajasthan. Other states like Gujarat, Har yana and Maharashtra has guar seed collection centers and
51
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
guar gum processing units. Recently, more units are also being established in Bikaner, Rajasthan
with high capacity. Sri Ganganagar, Hissar, Alwar, Sirsa, Jodhpur, Bikaner, Jaipur are the major
markets for guar seed. Major guar gum is used in paper, textile, oil drilling, mining, explosives, ore
otation and other various industrial applications. Out of the decadal average potential production
of guar gum around 6.5 lakh tons in the country, around 3.0 lakh tons is consumed in the domestic
market as raw as well as processed and around 3.5 lakh tons is exported.
During processing, modications in guar gum are intended to impart desired chemical properties
in the galactomannan like increased solubility in water, clarity of solution, increased shelf life,
ionic character according to the needs of the particular nal application. By these modications
lot of opportunities are opened, where chemically modied guar derivatives can be used (Table 37).
Table 37. Various varieties of processed products of guar gum for industrial
applications
Varieties Applications Varieties Applications
Hydroxy alkylated
guar gum
Oil well drilling Sulphated guar gum Mining
Carboxy methylated
guar gum
Textile printing,
Tobacco industry,
water based paints
Guar gum formate Food-Human and animal,
Miscellaneous
Oxidised guar gum Paper industry
Food, textile printing
applications
Guar gum acryl amide Pharmaceutical
industry
Acetates of guar
gum
Food-Human and
animal
Borate cross linked
guar gum
Photography, Oil well
drilling, carpet printing
Cationic derivatives
of guar gum
cosmetic and paper
industries
Reticulated guar gum Stick explosives, blasting
slurries
Movement in price of guar gum
e seasonal demand for guar gum is at its peak during the months of Nov-March around the
world.
As the reason being quite simple, the majority of the drilling activities of crude oils take place
during these months. Going forward we expect guar seed and guar gum prices to stable further due
to normal carry forward stocks, good export demand and seasonal demand for guar gum. Guar
seed prices in near future in domestic market may remain stable as the normal production during
2014-15. e international price scenario of dierent grades of guar gum during 2005-06 to 2014-
15 is shown in Figure 33.
International trade of guar gum
India’s top agricultural export commodities in terms of quantity and value for three years are
given in the Table 38. Agricultural exports decreased from `1349.4 billions in 2013-14 to `1304.6
billions in 2014-15. Decrease in value of agricultural exports during 2012-13 was primarily on
52
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
account of lower exports of guar gum, basmati rice, wheat and other cereals. Guar gum has been
the topmost export commodity in agri-export during previous years like in 2012-13, but in 2013-
14 it ranked on 4th position after basmati & non-basmati rice, and bualo meat. Subsequently, in
2014-15, it ranked on 4th position after bualo meat, basmati and non-basmati rice.
0
2000
4000
6000
8000
10000
12000
2005-06 2006-07 2007-08 2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15
US Dollar/t
Grade-200-3500 Tech Grade-200-3500 Grade-100-3500
Grade-200-5000 Grade-200-5500
Figure 33. International price level of dierent grades of guar gum
Table 38. Top agri-export commodities during previous three years
Particulars Export Value (` in billions) % share in total agri- export
2012-13 2013-14 2014-15 2012-13 2013-14 2014-15
Guar gum 196.2 117.3 94.80 18.2 8.7 7.3
Basmati rice 168.6 293 275.99 15.7 21.7 21.2
Bualo meat 156.6 272.5 292.83 14.6 20.2 22.4
Non-basmati rice 130.9 174.9 203.36 12.2 13 15.6
Other cereals - 71.3 52.58 - 5.3 4.0
Wheat 91.9 92.6 49.75 8.5 6.9 3.8
Total (S.No.1-6) 744.3 1021.6 969.30 69.2 75.7 74.3
Total agri-export (All items) 1076.4 1349.4 1304.6 100.0 100.0 100.0
Source: DGCIS & APEDA Annual Report.
53
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Export of guar gum during X and XI plan period, export and production capacity during 2007-08 to
2014-15 is given in Table 39 and Figure 34. India is the major exporter of guar gum to the world. It
exports various forms of guar products to a large number of countries. e country has exported
6, 65,097.71 MT of guar gum to the world for the worth of ` 947.82 crores during the year
2014-15. India is also the leading net exporter of guar seeds. e country exports over 6.65 lakh
tons of guar and its derivatives, which is comprised by 84,744 tons of rened split guar gum
(12.7 %), 4.36 lakh tons of treated and pulverized guar gum(65.7 %), 1.44 lakh tons of guar meal
(21.6 %) and traces of guar seed. Composition of guar gum export from India is given in Figure
35. Destination wise overseas demand from and source wise supply in India of guar meal, guar
gum rened split (GGRS) and guar gum treated and pulverized (GGTP) are illustrated through pie
charts in Figure 36, Figure 37, Figure 38 and Figure 39 respectively,
Table 39. Export of guar gum during XI and XII plan period
Yea r Quantity
(in tons)
Quantity
(in ’000 tons)
Value
(in ` lakh)
Value
(in US million dollar)
2007-08 123675.30 123.68 61,126.35 151.75*
2008-09 257810.30 257.81 133406.57 286.52*
2009-10 217938.29 217.94 113013.56 236.92*
2010-11 440659.60 440.66 293198.85 638.88*
2011-12 707326.44 707.33 1652386.68 3,446.36
2012-13 406149.90 406.15 2128130.52 3,919.18
2013-14 601945.42 601.95 1173452.50 1,979.56
2014-15 665097.71 665.10 94782.61 1551.87
Source: Directorate of Economics and Statistics, MoA, GoI; *Yearly average exchange rates (ask) for
corresponding time horizon has been used for calculation.
0
200000
400000
600000
800000
1000000
1200000
0.00
5,00,000.00
10,00,000.00
15,00,000.00
20,00,000.00
25,00,000.00
2005-06 2006-07 2007-08 2008-09 2009-10 2010-11 2011-12 2012-13 2013-14 2014-15
Export (qty in tons)
Export (value in ` lakh)
Guar gum potential production (qty in tonnes)
Figure 34. Trends in production potential and export of guar gum from India
54
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Guar meal
4% Guar gum-RS
12%
Guar gum-TAP
84%
Lithuania
19%
Egypt A RP
13%
Italy
11%
Poland
8%
Sri Lanka DSR
6%
Greece
5%
Indonesia
5%
Denmark
4.5%
Ecuador
4%
Malaysia
3%
Turkey
3%
Belgium
3%
Spain
2%
Japan
2%
Taiwan
1.5%
Latvia
1%
Germany
1%
Others
8%
Figure 35. Composition of guar gum export from India Figure 36. Destination wise scenario of guar meal
during 2014-15
USA
62.5%
China P RP
32%
Switzerland
2.3%
Netherland
1%
Oman
0.9% Belgium
0.7%
Spain
0.2%
Others
0.4%
U S A
78.7%
Canada
4%
Germany
3.4% Russia
3.3%
China P RP
1.7%
Italy
0.9%
Brazil
0.8%
UK
0.6%
Argentina
0.6% Japan
0.6%
Netherland
0.5%
Others
5%
Other
6.7%
Figure 37. Destination wise scenario of guar gum rened split
during 2014-15
Figure 38. Destination wise scenario of guar gum treated and
pulverized during 2014-15
USA
China P Rp
Canada
Germany
Russia
Italy
Lithuania
Brazil
Netherland
Japan
UK
Egypt A Rp
Argentina
Others
Figure 39. Destination-wise quantitative share of the guar gum exported from India (Overall)
55
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
United States, China, Canada, Germany, Russia, Italy, Lithuania, Brazil, Netherland, Japan and
UK remained as major export destinations in 2014-15. Canada, Lithuania, Egypt and Argentina
were the new entrants in top export destinations during 2014-15. During 2014-15, guar gum
was exported across the globe to 103 countries. About 94 % was exported to top 13 countries
and rest 6 % was exported to 90 countries around the world. Other countries are Poland, Korea,
Netherland, Lithuania, U.K., Brazil, Philippines, Japan, ailand, Argentina, U.A.E., Belgium,
Australia, Switzerland, South Africa, Bulgaria, Mexico, Denmark, Ecuador, Iran, France, Cyprus,
Chile, Bangladesh, Spain, Singapore, Vietnam, Saudi Arabia, Colombia, Nigeria, Pakistan, etc.
Destination wise export share is depicted in Figure 20.
C) Natural gum resins
Under this category, asafoetida, salai gum and myrrh are the major gum resins. About 11000 tons of
the gum resins exported from the country and `630 million earned as a foreign exchange.
Salai gum
Salai gum (Boswellia serrata) Frankincense, also known as Olibanum, is an aromatic oleogum resin
obtained as pale yellow to red tears from the bark of trees belonging to the genera Boswellia of the
Burseraceae family thriving in arid regions in the horn of Africa and southern Arabia. ere are
43 dierent reported species in India, Arabian Peninsula and North Africa. Olibanum is produced
in a restricted geographical area from uncultivated trees, and usually collected by small nomadic
groups; the name is derived from the Arab word “al Luban”, which means milk and is references
to the milky sap that, exudes from the tree upon incision. Appreciated by ancient civilizations,
Boswellia resins ranked along with gold and ivory, spices and textiles as valuables for trading
and barter. It is generally composed of 5–9% essential oil, 65–85% alcohol-soluble resin and the
remaining water-soluble gums. e essential oil of frankincense is produced by steam distillation
of the tree resin.
Extracts from B. serrata resin are currently used in India for the treatment of rheumatic diseases
and ulcerative colitis. Furthermore, the extracts and essential oils of frankincense have been
used as antiseptic agents in mouthwash, in the treatment of cough and asthma and as a xative
in perfumes, soaps, creams, lotions and detergents. Today frankincense is widely employed in
aromatherapy, Catholic Christian ceremonies as well as other religious and secular traditions
(Camarda at al 2016). Recently, increasing interest in natural dietary and therapeutic preparations
used as dietary supplements has been observed. One of them is frankincense. is traditional
medicine of the East is believed to have anti-inammatory, expectorant, antiseptic, and even
anxiolytic and anti-neurotic eects. e main component of frankincense is oil (60%). It contains
mono- (13%) and diterpenes (40%) as well as ethyl acetate (21.4%), octyl acetate (13.4%) and
methylanisole (7.6%).
Production
Boswellia serrata (Family: Burseraceae) is a deciduous middle sized tree, which is mostly
concentrated in tropical; parts of Asia and Africa. In India it occurs in dry hilly forests of Rajasthan,
Madhya Pradesh, Gujarat, Bihar, Assam, Orrisa as well as central penisular regions of Andhra
56
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Pradesh, Assam, etc. e gum is tapped from the incision made on the trunk of the tree which
is then stored in specially made bamboo basket and converted into dierent grades of material
according to avor, color, shape and size. e fresh gum obtained from the tree is hot dry with a
pleasant avor and slightly bitter in taste. Harvesting Frankincense is a time consuming process
that begins in December, reaching a peak from March to May (Marshall 2003). e trees start
producing resin when they are about 8 to 10 years old (Michie et al, 1991). In India, Shorea robusta,
Anogeissus latifolia, Terminalia tomentosa, Boswellia serrata, Buchanania lanzan, Acacia catechu, etc.
are reported as the important tree species by Champion and Seth (1968) and these species exhibit
local dominance. According Sagar et al (2003) half of these species changed dispersion behaviour
as a result of disturbance. Species changing from clumped distribution to uniform distribution
included B. serrata, H. antidysenterica and L. coromandelica.
International trade of olibanum
In India, olibanum is supplied from Yemen Republic (85.77%) and Ethiopia (13.07%). Trinidad
(26.88%) Mexico (19.31%) and Malaysia (10.53%) are the major export destination (Table 40).
Table 40. Export and import of olibanum during 2014-15
Country Quantity (tons) Value (` lakh) Value (000’ US
dollars) % share
Export
Trinidad 34.20 29.08 47.36 26.88
Mexico 26.00 20.62 34.03 19.31
Malaysia 3.38 11.64 18.56 10.53
U S A 5.00 9.40 15.43 8.76
Mauritius 5.89 7.01 11.52 6.54
France 2.00 5.05 8.19 4.65
U Arab Emts 1.20 4.24 6.95 3.95
Russia 1.50 4.17 6.92 3.92
Oman 0.85 3.60 5.99 3.40
Sri Lanka DSR 2.00 2.70 4.45 2.52
Jamaica 1.00 2.26 3.82 2.17
Australia 0.11 2.24 3.61 2.05
Others 3.87 5.80 9.40 5.33
Total 87.00 107.82 176.20 100.00
Import
Yemen Republic 22.13 98.35 159.82 85.77
Ethiopia 32.00 14.73 24.36 13.07
ailand 0.60 1.04 1.65 0.89
Germany 0.05 0.31 0.50 0.27
Total 54.78 114.43 186.33 100.00
57
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Trinidad
Mexico
Malaysia
U S A
Mauritius
France
U Arab Emts
Russia
Oman
Sri Lanka DSR
Jamaica
Australia
Others
Figure 40. Destination-wise quantitative share of the olibanum exported from India
Myrrh
Myrrh comes from a small, thorny tree. Commiphora myrrha is the most species-rich genus of
owering plants in the frankincense and myrrh family, Burseraceae, which was cultivated in
ancient times in the Arabian Peninsula. e grower made a small cut in the bark, where the resin
would leak out. It was then collected and stored for about three months until it hardened into
fragrant globules. Myrrh was used raw or crushed and mixed with oil to make perfume. Myrrh oil,
which is steam distilled directly from the myrrh resin, has an aroma that is woody, earthy and a
bit balsamic. Also, myrrh is occasionally used as a avoring agent. Somalia and Ethiopia are major
producers of the substance.
International trade of myrrh
In India, myrrh is supplied from Yemen Republic (94.07%) and Kenya (4.16%). Korea RP (81.74%),
UK (4.85%) and Lebanon (4.36%) are the major export destination of myrrh (Table 41).
Asafoetida (Hing)
Asafoetida or asafetida (Ferula anthrax and F. foetida) also know as “Food of the Gods”, “Stinking
Gum”, “Devil’s Dung” is the dried latex prepared from the rhizome of several Ferula species
occurring in Asia and North Africa. It is popular spice used in daily food by Indians. It was found
to contain mainly ferulic acid, umbellic acid and ketonic substance known as umbelliferone.
Powder of Asafoetida is used as carminative, it is also used in fainting, atulent colic and chronic
bronchitis as well as it is used to treat asthma in adults (Kokate et al 2002). e drug is used as
herbal remedy or spice especially in oriental countries since ancient times. In Germany the drug
is known in mediaeval times. e spectrum of ingredients is characterized by a complex mixture
58
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
of sesquiterpene coumarins, diterpenes, esters of ferulic acid and sulphur-containing organic
compounds. e drug is traditionally used for the treatment of diseases of the digestive and
respiratory tract. New pharmacological investigations indicate possible anti-inammatory, anti-
diabetic and anti-bacterial eects (Kandziora et al 2015).
Table 41. Export and import of myrrh during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value (000’ US
dollars) % share
Export
Korea RP 12.00 1.68 27.23 81.74
U K 0.13 0.10 1.62 4.85
Lebanon 0.10 0.09 1.45 4.36
Austria 0.05 0.06 1.01 3.02
U S A 0.03 0.04 0.62 1.86
New Caledonia 0.02 0.04 0.59 1.77
Maldives 0.03 0.03 0.50 1.50
Canada 0.03 0.01 0.20 0.61
Hungary 0.00 0.01 0.10 0.29
Total 12.39 2.05 33.31 100.00
Import
Yemen Republic 41.93 23.63 386.87 94.07
Kenya 10.95 1.05 17.11 4.16
Somalia 3.00 0.23 3.78 0.92
Italy 0.10 0.16 2.66 0.65
Morocco 1.05 0.05 0.85 0.21
Total 57.03 25.12 411.27 100.00
International trade of Asafoetida
In India, Asafoetida is supplied from Afghanistan (89.50%) and UAE (7.92%). On other hand, UAE
(28.11%), USA (19.80%) and Singapore (7.48%) are the major export destination of Asafoetida
(Table 42).
Dikamali (Gardenia gummiferra)
Gardenia gummiferra (Dikamali) family Rubiaceae is the gum resin obtained from the leaf buds of
a shrubby plant by making a cut on the stem or branches. It is geographically distributed in all
districts of south India, Burma, Bangladesh, Konkan region, North Kanara, and Malabar Coast.
Other names are Dikamali, Gandharaj, Hingunadik a, Nadihingu, pindava, etc. A number of avonoids
such as gardenin A, B, C, D, and E were isolated from Dikamali in the past. It contains 89.9% resin
and 0.1% oil and gardenin, a coloring agent and annual production is 10-15 tons.
59
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Table 42. Export and import of asafoetida during 2014-15
Country Quantity
(tons)
Value
(` lakh)
Value
(000’ US dollars)
%
share
Export
U A E 229.64 115.53 1888.62 28.11
U S A 183.54 81.16 1329.98 19.80
Singapore 57.48 30.74 502.70 7.48
U K 52.89 24.10 395.27 5.88
Saudi Arab 36.69 14.88 243.31 3.62
Malaysia 10031.33 14.58 238.43 3.55
Kuwait 22.39 14.50 236.37 3.52
ailand 30.20 13.35 218.92 3.26
Myanmar 39.00 12.93 211.33 3.15
Oman 27.22 12.50 204.57 3.04
Canada 19.15 10.68 175.34 2.61
Australia 18.72 9.51 156.08 2.32
Baharain IS 13.62 6.48 106.02 1.58
Qatar 10.71 5.80 94.94 1.41
South Africa 13.17 5.18 84.63 1.26
Others 97.31 38.58 631.92 9.41
Total 10883.07 410.49 6718.42 100.00
Import
Afghanistan 733.918 3568.035 58246.45 89.50
U A E 1.56 0.660114 5152.65 7.92
Uzbekistan 140.511 317.2055 1672.99 2.57
Iran 153.282 103.2811 10.84 0.02
Total 1029.271 3989.182 65082.94 100.00
In color and odor it resembles asafoetida. It possesses certain alkaloids and minerals. Dikamali
is well-known antiseptic and carminative. It also used as an antithelmintic, antispasmodic,
carminative, diaphoretic, expectorant, potentiation of pentobarbitone induced sleep, antiepileptic,
peripheral and central analgesic, cardiotonic, antioxidant and antihyperlipidemic. It is also claimed
60
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
to be useful in dyspepsia, atulence for cleaning foul ulcers and wounds, and to keep o ies from
wounds in veterinary practice. e gum powder mixed with honey is used to massage the gums
in teething troubles. It is also an eective painkiller, antiseptic as well as a wound healer, used in
the dental aches and infections. e paste of gum has salutary eect on swellings, allocated with
pain. Producers’ price in the market is `100-120 and retail price of processed product is about
`1200-1400.
D) Natural Resins and Gums (NRGs)
NRG production level during 2013-14 was estimated to be comparatively higher (~1160314.1 tons)
than previous year (Table 43). Other resins and gum production have declined during the current
year. Production and trade of NRGs including guar gum, lac, pine resin, gum karaya, dhawda gum
and other natural resins and total production gure of all the NRGs is tabulated as under.
Table 43. Total NRG production (quantity in tons)
Crops 2010-11 2011-12 2012-13 2013-14 2014-15 Average %
Guar gum*
655449.10 744295.20 818975.10 1129134.40 1094546.50 888480.06 97.09
Lac
9035.00 17900.00 19577.00 21008.00 16978.00 16899.60 1.85
Pine resin
8764.10 8514.20 8361.30 6875.30 6699.30 7842.84 0.86
Karaya gum
163.61 284.90 211.90 128.76 83.23 174.48 0.02
Dhawda gum
2.70 147.24 379.89 448.41 295.09 254.67 0.03
Other gums
856.91 716.45 552.16 567.26 332.62 605.08 0.07
Others
430.30 691.10 1082.50 975.10 1189.76 873.75 0.10
Grand total
674701.72 772549.09 849139.85 1159137.23 1120124.50 915130.48 100.00
*Estimation of guar gum is based on the conversion of total guar seed production with a coecient of conversion
Export and import of Natural Resins and Gums during 2014-15
Data on export and import of natural resins, gums and gum-resins were collected from Directorate
General of Commercial Intelligence and Statistics, Kolkata. e total export of natural resins,
gums and gum-resins during the year 2014-15 was 543620.51 tons valued `9237.70 crores and
total import was 32474.02 tons valued `147.50 crores. A comparative decrease in the volume of
total NRG export was observed during 2014-15 and due to deceleration in price, particularly for
guar gum, the total value of NRG export was less than previous year 2013-14. Details of export and
import of natural resins, gums and gum-resins is presented in the Table 44.
NRGs are important natural products in the export basket for foreign exchange reserve in India.
e average annual export quantity of NRGs was 218971.29 tons valued ` 357155.57 lakh during
the period 1998-99 to 2012-13. However, during last 15 years exported quantity has registered
increasing trend with an annual compound growth rates of 10.69 %. Consequently, export value
of NRGs has also shown increasing trend with an annual compound growth rates of 22.04 %.
Similarly, the average annual import quantity of rosin was 50523.48 tons valued ` 29896.12 lakh
during the period 1998-99 to 2012-13. Its import had a very high stability with growth rates in
61
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
import quantity (13.64 %) as well as value (24.95 %). Trend in export of natural resins and gums
from India and import in India during last ve years is presented in Figure 41 and Figure 42,
respectively.
Table-44: Export and import of natural resins, gums and gum-resins
during 2014-15
Sl.
No. Name of product
Export Import
Quantity
(tons)
Value
(` Lakh)
Quantity
(tons)
Value
(` Lakh)
A. Natural resins
1. Copal 0.58 0.99 2073.05 943.65
2. Dammar batu 8.96 15.84 13663.31 4482.79
3. Gum rosin 374.89 520.87 36117.76 45038.61
4. Lac 6569.17 32249.58 NA NA
5. Mastic gum 0.50 2.22 2.16 10.29
6. Other resins 235.47 409.55 172.05 772.47
Total 7189.56 33199.04 52028.33 51247.82
B. Gums
7. African gum 0.50 0.81 315.00 92.90
8. Asian gum 405.60 1775.30 46.97 31.52
9. Gum arabic 398.65 1099.32 31007.75 12872.35
10. Guar gum rened split 84744.27 116171.44 65.15 296.49
11. Guar gum treated and
pulverized 436431.64 799103.48 60.41 255.03
12. Karaya gum (Indian tragacanth) 198.02 770.63 586.28 394.67
13. Tragacanth (Adracanth) 0.12 0.24 2.35 3.10
14. Xanthum gum 1.00 7.72 80.48 165.24
15. Other natural gums 3062.81 4841.57 309.64 639.35
Total 525242.60 923770.50 32474.02 14750.65
C. Gum resins
16. Asafoetida 10883.07 4104.90 1029.27 39891.82
17. Myrrh 12.39 20.50 57.03 251.22
18. Olibanum or frankincence 87.00 107.82 54.78 114.43
19. Other gum resins 205.89 2068.19 546.39 1157.24
Total 11188.35 6301.40 1687.47 41414.71
Grand total 543620.51 963270.94 86189.81 107413.18
Source: DGCIS, SHEFEXIL & APEDA Annual Reports.
62
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
0
20000
40000
60000
80000
100000
120000
0
10000
20000
30000
40000
50000
60000
70000
80000
90000
100000
2010-11
2011-12
2012-13
2013-14
2014-15
Quantity in tons
Quantity ( in tons) Value(` in lakh)
Figure 41. Trend in export of natural resins and gums from India during last ve years
0
500000
1000000
1500000
2000000
2500000
0
100000
200000
300000
400000
500000
600000
700000
2010-11
2011-12
2012-13
2013-14
2014-15
Quantity in tons
Quantity ( in tons) Value(` in lakh)
Figure 42. Trend in import of natural resins and gums in India during last ve years
63
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
POLICY INTERVENTIONS
e present practices adopted by dierent States for xation of price for dierent MFPs were on
the basis of market prices by reducing all the overheads and the second methodology for arriving
at procurement price is to follow cost plus method in which cost of collection can be calculated for
MFPs in dierent States. erefore, government has taken the initiatives under the scheme for
MFPs.
Mechanism for marketing of Minor Forest Produce through Minimum
Support Price and development of Value Chain for MFP
A Pricing Cell was constituted pursuant to the Ministry of Tribal Aairs, Government of India and
notied vide TRIFED’s to recommend Minimum Support Price for Minor Forest Produce under
the scheme “Mechanism for marketing of Minor Forest Produce through Minimum Support Price
and development of Value Chain for MFP” To determination fair and remunerative MSP for lac
and gum karaya the deliberations of the Pricing Cell with State Procurement Agencies (SPAs) and
federations were conducted. Computation of cost of production of gum karaya and lac for MSP
was furnished by ICAR-Indian Institute of Natural Resins & Gums (ICAR-IINRG). e Pricing Cell
analysed the above information furnished by the SPAs and observed the wide variation in the data
on the related parameters from State to State. Following decisions were made in the context of
price stabilizing policy for MFPs.
A. Recommendations of Minimum Support Price of gum karaya for the 2014 crop
It was noted that major quantity of gum karaya is procured in Andhra Pradesh, Madhya Pradesh,
Jharkhand, Chhattisgarh and Maharashtra. Gum karaya is procured from gum pickers in three
grades and procurement prices are also announced grade wise. However, Gum karaya of grade
III accounts for approximately 70 % of the total quantity purchased by GCC in Andhra Pradesh.
Similar status was conrmed by other states regarding grade wise procurement. It was also noted
that gum karaya is a nationalized item or is under monopoly system of procurement in most of the
states except Gujarat, Jharkhand & Maharashtra. Despite announcement of procurement price in
Gujarat hardly any quantity of gum karaya was procured. Similarly in Jharkhand and Maharashtra
also, the quantity procured was very low. e Pricing Cell also considered the computation
of the cost of production of gum karaya as calculated and furnished by ICAR-IINRG, Ranchi.
Representative explained the details of the cost worked out by for gum karaya, which is calculated
on the basis of collection of gum karya in a scientic manner. e method used by them is to
calculate the direct cost associated in collecting gum karaya independent of the minimum wage
method. At the same time, members observed that IINRG, an institution engaged in research and
training for NRGs, has calculated the cost that appears to be more reliable as they have arrived at
this cost after studying various aspects of collection over a period. Finally, the Pricing Cell felt it
appropriate to determine MSP on the basis of the cost of production as calculated by ICAR-IINRG
plus 10 % increase thereon. Accordingly, the Pricing Cell recommended MSP of ` 108/- per kg. for
gum karaya Grade-III for the current procurement season. However, the Pricing Cell underlined
the need of initiating a study to collect relevant data to calculate cost of collection so that the MSP
64
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
is xed in pursuance of the spirit of the scheme. It requires eld visits, primary data collection and
hands-on work to study various factors aecting cost of collection for MFPs. However, this may
take a long time as the survey can be conducted only during the harvesting season. e Pricing
Cell recommended that a study be immediately initiated so that relevant data to calculate cost of
collection for 12 MFPs in 8 States can be collected.
B. Recommendations of Minimum Support Price of lac for the 2014 crop
e two varieties of lac rangeeni variety (harvesting season is May-June & October-November) and
kusumi variety (harvesting season is January-February & July-Aug) cultivated mainly by tribals.
Its production is mainly dependent upon inoculation of broodlac by tribals on the lac host trees in
time. Major quantity of lac is available in the State of Jharkhand followed by Chhattisgarh, M.P.
& Odisha. Accordingly, based on the inputs provided by IINRG, Pricing Cell had recommended a
Minimum Support Price (MSP) of `210 and `290/ kg for rangeeni and kusumi lac, respectively for
2014 crop (applicable up to November 2014 as the cost of the production may vary depending
upon the cost of broodlac during the next season).
C. Recommendations of Minimum Support Price of lac for the 2015 crop
Normally the lac price is dominated by processors but farmers / primary collectors should get the
price based on the cost of the production which may vary depending upon the cost of broodlac for
the season. During the current year, the Lac Cultivators have used brood Lac of July 2014 crop
in their cultivation when the prices were ranging between `300-350/kg, hence cost of production
of lac will be higher during harvesting season in December and January. IINRG submitted a
detailed cost sheet for determining the cost of production for each variety of lac. e Pricing Cell
recommended enhancing the current MSP by 10 %. Pricing Cell had recommended a Minimum
Support Price (MSP) of `230 and `320/kg for rangeeni and kusumi lac, respectively for 2015 crop.
65
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
CONCLUSIONS
Value addition in lac based products has an encouraging market scenario as the export of Aleuritic
acid is increasing since last two years. New and young entrepreneurs have entered in lac sector with
big investments for production of high value products like Aleuritic acid and isoambrettolide. To
meet the domestic demand Pine resin processing infrastructure is needed to be revamped. Both the
units are functional at under capacity level. Production and procurement of some gums is declining
during last two years. MSPs for NWFP may be key intervention for procurement, marketing and
value chain establishment. It will be helpful to stabilize the price uctuation particularly in case
of lac. Copal, damar batu, mastic gum, gum rosin, lac and others are natural resins exported and
imported in India. Gum arabic, asian gum, african gum, karaya gum, tragacanth, guar gum (rened
split and treated pulverized), xanthun gum and others are natural gums exported and imported
in India. Asafoetida, myrrh, oilbanum and others are gum-resins exported and imported in India.
e exported quantity of natural resins and gums during 2014-15 was 543620.51 tons valued
` 963270.94 lakh while imported quantity was 86189.81tons valued ` 107413.18lakh.ese
gures are on higher side of the normal EXIM scenario of NRGs.
Although resins discussed have proved to be popular alternative or complementary medicine used
in the treatment of many diseases, clinical trial evaluation of these claims using currently accepted
protocols is needed. e reported resins oer huge potential as a possible pharmacological
application but its necessary a further investigation to verify whether puried compounds
isolated may have better therapeutic potential as compared to crude extracts. ese new chemicals
will serve to enhance the continued usefulness of higher plants and their products as renewable
resources of chemicals.
is report presents an overview of quantity and values for selected forest products and services
from Indian forests. Results highlight a strong concentration of value in guar gum production. e
economic value of NWFPs however is only partly reected on the market and recorded by ocial
statistics. Underestimation by existing statistics might be due to several reasons, including: (i) the
public-good nature of many products/services and consequent diculties in estimating them; (ii)
the fact that data recorded for ocial statistics are not always complete (for example they do not
always cover all the region as in the case of NWFPs); and (iii) the fact that a certain proportion
of the NRGs is not mirrored by ocial data because some products are traded through informal
channels and markets. Enhancing the oer of Indian market products and increasing their role
in the rural economy could help to reduce the costs of forest protection: a well-structured forest
economy able to provide stable ows of incomes can provide a fundamental set of public non-
market services and social values to both local people and the whole community. Understanding
the true value of natural resources, for both land users and policymakers, is an essential step for
promoting their protection and sustainable use. Since markets do not reect all values owing from
NWFPs, further research is needed to better understand the link between ecosystem functioning
and the delivery of services, as well as their appropriate economic evaluation. As a nal point, we
are aware that synergies and trade-os exist between market products and nonmarket services,
66
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
as well as among dierent ecosystem services. Estimations would signicantly contribute to the
identication of management conditions and choices, as well as the setting of priorities that allow
a social optimum to be achieved.
e constraints related to export of natural resins and gums were small and scattered quantity of
produce, uctuation in domestic production and prices, adulteration in raw material, limited export
promotional measures, improper international market information, lack of future trading and
prior agreement as expressed by the exporter. India has a great potential in production and export
of natural resins and gums because of availability of resins and gums yielding trees, manpower,
favorable climate and R&D support. e proper attention and action for intensication of eort
for increasing natural resins and gums production will denitely improve the export earning of the
country. Major gums and resins of international commerce produced and traded in and from India
include Guar gum, lac, gum karaya, gum Arabic from Acacia species, and myrrh, asafoetida, Rosin
and olibanum from Commiphora species. Scientic inoculation and gum tapping methods would
produce more NRGs than traditional method because they have been practiced successfully by
innovative/progressive farmers during last few years. It would be preferable to consider scientic
inoculation and gum tapping methods to get better quality and yield, and to change the economic
standards of cultivators of India.
67
Lac, Plant Resins and Gums Statistics 2015 : At a Glance
Annexure I. Sticklac lac production scenario in India during 2014-15 (in tons)
Name of states / districts Baisakhi Jethwi Katki Aghani Total
Andhra Pradesh & Telengana 55 5 105 5 170
Assam 45 0 240 0 285
Chhattisgarh
Bastar 5 10 10 120 145
Bilaspur 30 10 25 80 145
Dhamtari 10 10 10 35 65
Durg 5 0 2 0 7
Janjgir-Champa 40 10 10 45 105
Kanker 30 155 15 310 510
Korba 165 125 165 295 750
Mahasamund 20 1 25 10 56
Raipur 10 25 1 90 126
Rajnandgaon 35 5 30 50 120
Surguja 45 0 35 0 80
Ambikapur 0 2 10 0