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The role of Internet and social media in the diffusion of knowledge and innovation among farmers

Authors:

Abstract

The impact of the use of information technology (IT) has been gaining relevance recently in the way it can facilitate communication in the agricultural sector. Farmers can share innovations and knowledge alongside solving problems through social media, or other uses of the Internet. Farmer-to-farmer knowledge sharing is an important source of information, but potential obstacles to effective communication can include distance and the amount of time farmers can invest in knowledge sharing activities. The Internet has therefore become an effective way to overcome those obstacles. The internet allows farmers to share their experiences, which traditionally would have been over a farm-gate, via YouTube, web forums and online groups. There are Twitter feeds that farmers can go to, ask questions, or share experiences. Whilst some conventional farmers are also using these tools, they have become a lifeline for farmers hoping to or currently farming more sustainably. These farmers are likely to be disparate throughout the UK, may no longer share with their neighbours, but instead rely on social media for advice and mentoring. Key annual farming events are broadcasted live via Twitter. Farmers and other participants are encouraged to share highlights of the conference sessions, their comments on the speakers and event itself, allowing others unable to attend to receive information from the event. Internet and social media have a growing role in the diffusion of knowledge and innovation within the agricultural sector, allowing a greater number of farmers, researchers and practitioner to share information and experiment so as to facilitate innovative farming practices.
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The role of Internet and social media in the diffusion of knowledge and innovation
among farmers
Burbi, S.a and Hartless Rose, K. a
a Centre for Agroecology, Water and Resilience, Coventry University, Ryton Organic Gardens, Wolston
Lane, Ryton-on-Dunsmore, Warwickshire, CV8 3LG, United Kingdom
Keywords: social media; farmer innovation; agroecology; internet.
Abstract
The impact of the use of information technology (IT) has been gaining relevance recently in the way it can
facilitate communication in the agricultural sector. Farmers can share innovations and knowledge
alongside solving problems through social media, or other uses of the Internet. Farmer-to-farmer
knowledge sharing is an important source of information, but potential obstacles to effective
communication can include distance and the amount of time farmers can invest in knowledge sharing
activities. The Internet has therefore become an effective way to overcome those obstacles. The internet
allows farmers to share their experiences, which traditionally would have been over a farm-gate, via
YouTube, web forums and online groups. There are Twitter feeds that farmers can go to, ask questions,
or share experiences. Whilst some conventional farmers are also using these tools, they have become a
lifeline for farmers hoping to or currently farming more sustainably. These farmers are likely to be
disparate throughout the UK, may no longer share with their neighbours, but instead rely on social media
for advice and mentoring. Key annual farming events are broadcasted live via Twitter. Farmers and other
participants are encouraged to share highlights of the conference sessions, their comments on the
speakers and event itself, allowing others unable to attend to receive information from the event. Internet
and social media have a growing role in the diffusion of knowledge and innovation within the agricultural
sector, allowing a greater number of farmers, researchers and practitioner to share information and
experiment so as to facilitate innovative farming practices.
1. Introduction
When evaluating farmers’ knowledge in relation to various agroecological farm management practices, it
is important to consider that even though some farmers acquire information from family-led or traditional
practices, Ingram (2008) pointed out that farmers tend to lack in-depth knowledge of specific scientific
phenomena e.g. related to chemical or physical processes in soil management. In fact, farmers are more
likely to rely on experience limited to their farm or that of someone close to them, family member or
relative (Ingram et al., 2010). However, peers-exchange remains an important source of knowledge for
farmers, in particular regarding current hot topics such as greenhouse gas emissions or more broadly, the
sustainability and environmental issues related to agricultural sector (Klerkx and Jansen, 2010). As a
result, networks of influence represent a valuable source of information for farmers, as well as advice and
support (Klerkx et al., 2012). Examples of such networks in the UK include groups with different focuses:
they can be specific interest groups (e.g. Pasture-Fed Livestock Association), have a geographic focus
(e.g. Tamar Valley Organic Group), or a political focus (e.g. Conservative Rural Affairs Group), and they
can span at local, regional or national level.
Rural communities in the UK have struggled for many years receiving slow internet connection, limiting
farmers’ possibilities to access internet communication outlets, platforms to engage with the wider
community and globally (Helsper, 2011; Ofcom, 2013). As a result, the Internet has been slow to become
part of everyday life in many farmers lives in the UK. However, the development and introduction of
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smartphones, broadband, and 3G mobile networks have provided opportunities for farmers to connect
with their peers in spite of the distance separating them. Farmers can use internet tools such as web
forums for discussion and debate, internet searches, digital versions of farmer magazines (Farmers
Weekly, 2016a) to learn new knowledge, query problems, and access information on their phones, even
in the middle of a field. Moreover, social media, such as Twitter, Facebook or a Google group, enables
them to instantly communicate, over an electronic hedge, with online peers who may never meet face-to-
face, but can advice, sympathise and relate, for instance, from a farmer in a tractor in the Scottish
Highlands, to another farmer in Cornwall. Finally, several studies suggest that farmers tend to prefer
kinaesthetic (“learn by doing”) or audio/visual learning to other learning styles (Franz et al., 2010;
McLeod, 2006). As a result, IT now can allow farmers to view or record videos, listen to recordings and
watch live web-streaming of conferences, with the subsequent benefit of enabling them to develop their
knowledge and learning without having to leave their farms.
The need for more interaction and collaboration between farmers and researchers in order to promote
innovation and knowledge exchange is highlighted by the surge in initiatives such as the Soil Association
Field Labs (Soil Association, 2016). Open to all farmers, regardless of their farming system, e.g.
conventional, organic, the labs are aimed at encouraging farmers to voice the issues and problems they
would like to be researched, and then promote the sharing of information on innovative technologies,
practices and collaborative research programmes that can foster greater environmental sustainability
between the farmer and researcher.
In a recent study on farmers’ attitudes to climate change, a series of interviews were carried out by
researchers, followed by a focus group meeting to engage with all the participants and develop future
action in a collaborative environment with the researchers (Burbi et al, 2016). The focus group was
organised over a day, allowing for sufficient time to travel. However, several farmers could not attend the
meeting because they had limited or no staff to replace them at the farm when away. In order not to lose
the opportunity to engage in the discussions, some farmers who could not attend called the researchers
prior to the meeting, voicing the topics they were more concerned about and would have liked to discuss
during the focus group. Other farmers acted as rapporteurs, collecting information from those who could
not attend and reporting on the results of the meeting. Alternatives were found, but it has to be
considered that family-run farms or small-scale farms often rely on limited labour force and cannot stay
away from the farm for extended periods of time, sometimes even just 1 day. Distance and time may
therefore hinder they possibility to engage with other farmers and researchers in person, making the
Internet medium a more attractive option for them.
This paper is going to look at the authors’ research on the use of IT learning. An initial review of literature
helped identify issues, which were examined in farmer interviews and focus groups across England.
2. Methodology
The authors interviewed a total of thirty farmers, farming mixed arable and livestock systems, with a
combination of conventional and agroecological techniques. The interviewees were spread across
England. The interviews were aimed at acquiring information on how the farmers accessed and
implemented learning. The interviews were followed by two focus groups, which encouraged peer
learning, and further consolidated the data gathered through the interviews.
3. Issues facing diffusion of knowledge and innovation
3.1 Farmer knowledge exchange
Contacts and interactions with other farmers, especially if they are happening regularly, can influence
greatly a farmer’s attitudes and perception of innovation,(Rydberg et al., 2008) Influences external to the
farmers immediate community can come from the media and extension officers, as well as consumers
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group. Swanson and Rajalahti (2010) suggest that one of the greatest challenges facing the agricultural
sector in the UK, as well as in other European countries, is that over the past 30 years governments have
gradually reduced the funding for extension and advisory work. This has resulted in extension services
having varying degrees of efficiency and impact, because they now rely mostly on private companies
providing agricultural consultancy services in a rather fragmented manner (Oreszczyn et al., 2010). In
England, it has been observed that some farmers who rely on networks of influence (i.e. a farmer’s own
family and peer-to-peer exchange group) to acquire and exchange knowledge among peers tend to resort
to agricultural consultants only when these networks of influence do not succeed in providing the farmers
with the advice needed (Klerkx and Proctor, 2013). Such premises foster even more fragmented and
inconsistent external advice. Moreover, according to Buhler (2002), since more than a decade ago,
funding for agricultural research in the UK has been shifted from collaborative projects involving both
farmers and researchers to a system that relies on private funding, therefore reducing government
expenses on extension services. Buhler further comments that this seems to be impacting on the
reluctance that some farmers show in adopting new technologies or innovative practices (2002). More
recently, Islam et al. (2013) has observed several case studies in the developing world and concluded
that the combination of formal and non-formal education (i.e. inside and outside the classroom) has a
positive impact on farmers uptake of innovation, as opposed to approaches that focus just on technical
advice, without taking into account social implications that such innovations could have on farmers’
livelihoods. The combination of formal and non-formal education and interaction with researchers has
multiple advantages. It can be considered a step forwards in trying to compensate for the reduction in
government funding by generating knowledge transfer activities and promoting advances and innovation
in the agricultural sector, fostering knowledge sharing and ensuring transparency. This is vital because it
also helps ensuring that the advice provided takes into account not only the technical aspects of an
innovative practice, but the social and economic implications of it as well, giving the farmers the
opportunity to choose the best option based on the farming system adopted (Islam et al., 2013;
McKenzie, 2011). Therefore, two-way communication represents a broader approach to extension: it
enables farmers and researchers to share and co-generate knowledge; whilst enabling researchers and
policy makers to gain deeper knowledge of the underlying factors that can influence the decision-making
process in the case of farmers and the means that the sectors uses to exchange and generate knowledge
on innovation (Kings and Ilbery, 2010). As a result, such collaborative action can be considered beneficial
in that it focuses on information directly of interest to the farmers in a practical way, and it attempts to
avoid neglecting the environmental, social and economic implications that could also interest policy
makers, not only researchers. The clear benefit from such knowledge exchange and interaction is the
opportunity to facilitate the implementation of future policies, such as the ones focusing on promoting
Good Agricultural Practices and, more broadly, the sustainable management on natural resources by the
farming community (Islam et al., 2013; Röckmann et al., 2012).
Therefore, it can be suggested that in order to promote effective innovation in the agricultural sector it is
highly important that farmers, researchers and policy makers engage in successful communication. As an
example, Burbi et al. (2016) have addressed the issue of climate change, which is highly debated in these
recent years and has to face obstacles both related to scepticism from some farmers and financial
limitations in adopting innovative technologies that could reduce the impact of livestock farming in terms
of greenhouse gas emissions from manure storage and treatment. The authors found that farmers tend to
state that they would like to have access to unbiased scientific knowledge on climate change. This was
likely to be related to the sense of confusion experienced by some farmers, combined with a lack of trust
over government action. As a result, farmers expressed a preference for direct interaction with
researchers and scientists and preferred collaborative work focused on finding practical solutions for the
implementation of innovation (much like the Farm Labs project mentioned above). In such a context, it
can also be considered that scepticism and confusion could result in opposite reactions from farmers:
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some farmers could be discouraged from taking action and engage with a wider community of farmers
and researchers, but at the same time, some farmers could be motivated to look for knowledge
originating from other resources, especially is such alternatives are considered more valuable by farmers
themselves.
3.2 Access to IT
As mentioned in the introduction, rural areas of the UK still lack access to broadband and experience
slow connectivity (Ofcom, 2013), which can limit farmers’ online access to knowledge and innovative
techniques. Furthermore, slow connectivity can result in access to social media taking significantly longer
than a farmer has time to spare, plus lack of experience of using social media can slow down a farmers
access and use of sites such as Twitter and Facebook (Hartless Rose, 2016).
Another issue the farmers interviewed have experienced is the risk of missing useful information due to
the speed of its flow online, or the difficulty in finding specific, relevant, reliable and applicable information
amongst the mass of online sources of knowledge (Hartless Rose, 2015a).
Ultimately the Internet represent an accessible means to obtain knowledge and promote the interactions
between farmers and researchers across the country that may otherwise have little chance to engage in
face-to-face interaction.
4. Possible solutions based on IT technology
4.1 Internet
In the UK, most farmer magazines and newspapers now have digital editions such as Farmers Weekly,
and the Farmers Guardian (2016), while more localised farming regions also now release digital editions
of their news (Three Counties Farmer, 2016). Farmers can access news, listings and other information
relevant to their activities, with the possibility of sharing links to specific information or news to their peers,
or leave comments directly on the website.
Although it is important to acknowledge that there are still rural areas in the UK where broadband and
3/4G mobile Internet are weak, it has become a common phrase to ‘Google it’ to find out information
about specific topics of interest. Moreover, with the introduction of smartphones and tablets, answers to
questions can be found instantaneously, even outside of the farmhouse. Search engines can be used to
look up products for the best value suppliers, ordering goods, learning a new technique or simply booking
a ticket for an agricultural show (RWAS, 2016).
Alternatively, web forums such as The Farming Forum (TFF) have become places popular for discussions
amongst the farming community in the UK. It allows farmers from every spectrum to debate, discuss,
advertise and share knowledge on a variety of topics. As with every online community where participants
come from a wide range of differing backgrounds, discussions may occasionally turn into heated
exchanges of opinions between participants passionately sharing their own views on specific topics, but
overall, discussion topics are useful for those who use the Forum to gain knowledge or find innovative
ways of improving their farming (TFF, 2014).
Massive Open Online Courses such as the Farmers Weekly Academy, allow farmers to keep up with their
Continuing Professional Development (CPD) by signing up to online courses and expanding their
knowledge (Farmers Weekly, 2016b). As another example, Lancaster University offers a free online
course on soils of the duration of 4 weeks, with the possibility of watching classes online in basic or high
definition, depending on the student’s Internet access speed, as well as downloading transcripts of each
class for reference. At the end of the course, which is expected take approximately 3 hours per week of
study, students will be issued a certificate of attendance (Future Learn, 2016). The flexibility of such
courses can be seen as an advantage in the case of farmers who spend most of their time running their
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farms and may have limited time to spend online or it may be difficult for them to keep a regular schedule
to attend classes, even in the case of online classes at fixed times during the week.
Interest groups also provide specific courses that can interest farmers, in particular those adopting
agroecological practices. For instance, RegenAG UK (2016a) has been organising courses for a number
of years, led by practitioners from various backgrounds and aimed at farmers, as well as researchers and
the general public. Even though these courses are not online and require farmers to leave the farm for at
least 1 day, the internet medium represents a source of knowledge that is easy to access and allows
farmers to explore a variety of options in terms of courses, one-day events or workshops on the topics
that most interest them at a specific moment in time. The courses are also followed up with resources
sent to the attendees via email. Training is also offered by organisations like Holistic Management
International (HMI, 2016b), the Biodynamic Association UK (2016) and the Permaculture Association UK
(2016b). These institutions provide free access to range of information and knowledge base that could
interest farmers, and they also list courses available throughout the year, some of which, such as the
Permaculture Design Course, are available as online learning (Permaculture Association UK, 2016c). An
interesting example of how farmers organise themselves and share knowledge among their peers and the
general public is the website of the Pasture-Fed Livestock Association, where one can find a section titled
“Learn More” and one titled “Research News” (PFLA, 2016b). These sections feature news of direct
interest to members of the association, mostly farmers, and the general public, with links to events and
other sources of information of easy access. The PFLA itself was founded by farmers and can therefore
represent an example of self-organisation within the farming community, with the aim to share knowledge
and innovation adopting IT technologies and social media.
4.2 Audio/visual media
Audio or visual media can provide a valuable source of information for farmers. YouTube has enabled
farmers, both in the UK and around the globe, to record new techniques that they are using on their farms
and share the videos online for others to watch, learn and use. As an example, through farmer interviews,
it was revealed that one farmer was feeling isolated in Northumberland (in the North of England), with
neighbouring farms not implement the same farming techniques. However, he had found videos filmed by
another farmer in another area of the country, showing successful and less successful implementations of
a specific grassland management option (Havard, 2015) and he stated that he considered the videos to
be as helpful as the more traditional farm walks (Hartless Rose, 2015b). Although this is just an example
and it obviously cannot be generalised, it has to be noted that in recent years it has become more
common practice at conferences to have sessions and keynote speakers broadcasted live via YouTube
or other similar online video channel (IPCUK, 2015; ORFC, 2016). Videos can be broadcasted also using
software such as Skype (Kasesalu and Tallin, 2003), allowing farmers to follow what interests them the
most in spite of the distance. Farmers who could not attend the events, such as the Oxford Real Farming
Conference (ORFC, 2016), for financial reasons, distance or due to limited time available can then
retrieve videos and transcripts of each session online. The farmers interviewed also followed live updates
from the events via Twitter or Facebook (Hartless Rose, 2015b).
4.3 Social media
Twitter has become a way for some distantly diverse farmers to chat as well as debate and exchange
information. Some farmers belonging to groups such as #ClubHectare (Twitter, 2012) or the account
@AgriChatUK (Twitter, 2011a) often greet each other at dawn, or whilst eating their lunch, sharing
knowledge of how their day has gone. Following its establishment in the US, AgriChatUK debates topical
farming issues every Thursday between 8-10pm. Whilst some farmers feel that AgriChatUK has peaked
and has become less relevant (Hartless Rose, 2015c) there are still very lively discussions each Thursday
amongst regular Twitter users. Among the latest topics addressed during the Thursday online meetings
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was "How to use IT effectively to make better business decisions" (17/03/2016), which further highlights
the importance that IT tools are taking in the agricultural sector. Furthermore, farming conferences such
as the Oxford Real Farming Conference use their Twitter account (2011b) to broadcast to those who
cannot attend the event, and ask questions during the plenary debates from Twitter and Facebook users.
Facebook pages and groups are a growingly popular platform for farmers, in particular those farmers
adopting management systems such as holistic management (HMI, 2016a), permaculture (Permaculture
Association UK, 2016a) and, more globally, about sustainable farming across the globe (Farmers for a
Sustainable Future, 2016). Some farmers also use Facebook to connect with their peers in the same
area, as it is the case, for example, of the Warwickshire Rural Hub (2016), which organises regular
meetings and farm visits for their members, free of charge, and share practical, up-to-date information
regarding National Farmers Union (NFU) membership and activities, rural payments or other legislative
requirements farmers need to be aware of, whether they farm conventionally, or organically or follow
other guidelines. RegenAG UK is particularly active on Facebook, sharing information on courses aimed
at farmers and the general public, including researchers (RegenAG UK, 2016b). It even has a space
dedicated to biofertilizers, which is a topic of great interest among small-scale farmers choosing not to
apply industrial fertilisers (RegenAG UK, 2016c). Farmers are also using Facebook to become more
political about issues that they feel strongly about, for example in the under-30s branch of the Farmers
Club (2016). The use of social media isn’t limited to farmers outside of the mainstream agricultural sector,
i.e. conventional, organic, but it has become a widespread tool to communicate even for Farmers Weekly
and Farmers Guardian, who feature on their website links to their social media accounts.
Google groups are another example of a means for farmers to share experiences and interact,
overcoming the issue of distance and financial limitations to attend events, conferences or even farm
walks organized by farmers groups. The Pasture-Fed Livestock Association (PFLA, 2016a) are frequently
asking questions to each other, or sharing experimentations with each other via their Google group, with
advice offered alongside. Access to the group is allowed to all PFLA members and supporters.
Researchers can also be given access, in order to communicate with members of the association, seek
knowledge exchange or conduct surveys on a number of topics of farmers’ interest, such as climate
change, soil health, farm management or grassland productivity.
5. Conclusion
Farmers across the UK face a number of challenges with regards to attending activities and events that
promote knowledge exchange among their peers, as well as engage in co-learning programmes with
other researchers. Issues such as the cost of attending conferences and courses, or the distance and the
time farmers have to take off their businesses can reduce the motivation to engage in knowledge
exchanges, potentially slowing down the uptake of innovative practices on-farm. Limitations in the use of
IT and social media still include access to fast and reliable interconnections and the availability of spare
time to browse through the mass of Twitter feeds, Facebook updates and forum feeds. However, the
Internet and social media are becoming increasingly useful in enabling farmers from across the whole
country (if not the globe) to share views and experiences, successes and failures, creating online
communities that contribute to the diffusion of knowledge and innovation across the agricultural sector.
Moreover, a number of initiatives provide free online courses for farmers, whilst social media platforms
such as Twitter, Facebook, Google groups or YouTube have the multiple benefits of promoting farmer-to-
farmer exchanges, as well as the broadcasting live of national and international events and conferences.
Such growing interest in the Internet and social media is likely to help avoiding the feeling of isolation that
some farmers may experience, especially those farming in remote areas of the country, have
smallholdings or implementing agroecological practices and therefore may be reluctant to follow advice
provided explicitly for conventional or organic farms. This leads to the possibility of research institutions to
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further adopt social media as a means to communicate with farmers, collect data and information for
research and creating continuing interaction, albeit online, between farmers and researchers in the UK,
as well as globally.
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References
Biodynamic Association UK (2016). Training. Retrieved from http://www.biodynamic.org.uk/training/
Buhler, W. (2002).. Science, agriculture and research. A compromised participation. London, UK.
Earthscan, 2002. p 143-157.
Burbi, S., Baines, R. N., and Conway, J. S. (In Press). Achieving successful farmer engagement on
greenhouse gas emission mitigation. International Journal of Agricultural Sustainability.
https://doi.org/10.1080/14735903.2016.1152062
Farmers Club (2016). Under-30s Group of the Farmers Cub UK. Official Facebook Group. Retrieved from:
https://www.facebook.com/groups/farmersclubu30s/
Farmers Guardian (2016) Farmers Guardian Online Magazine. Retrieved from: https://www.fginsight.com
Farmers for a Sustainable Future (2016). Public Group. Facebook. Retrieved from:
https://www.facebook.com/groups/sustainablefarmers/
Farmers Weekly (2016a). Farmers Weekly Magazine. Retrieved from: http://www.fwi.co.uk
Farmers Weekly (2016b). Farmers Weekly Academy. Retrieved from: http://www.fwi.co.uk/academy/
Franz, N. K., Piercy, F., Donaldson, J., Westbrook, J., and Richard, R. (2010). Farmer, Agent, and
Specialist Perspectives on Preferences for Learning Among Today's Farmers. Journal of Extension 48(3):
3RIB1. http://lib.dr.iastate.edu/extension_research/1
Future Learn (2016). Soils: Introducing the World Beneath Our Feet. Free Online Course. Lancaster
University. Retrieved from: https://www.futurelearn.com/courses/soils
Hartless Rose, K. (2016) Personal experience of Internet connectivity, broadband and mobile Internet in
rural areas of Northumberland and Herefordshire.
Hartless Rose, K. (2015a) Interview with Farmer GB 3/11/2015, On-farm interview, West Midlands.
Hartless Rose, K. (2015b) Interview with Farmer A, 23/11/2015, Telephone Interview at Centre for
Agroecology, Water and Resilience, Coventry University, Ryton Organic Gardens.
Hartless Rose, K. (2015c) Interview with Farmer B, 7/10/15 Telephone Interview at Centre for
Agroecology, Water and Resilience, Coventry University, Ryton Organic Gardens.
Havard, R. (2015). Wildflower meadow creation 3 months on. 8 November 2015. Retrieved from:
https://www.youtube.com/watch?v=KfAtqOLh4yc
Helsper, E. J. (2011). The emergence of a digital underclass: Digital policies in the UK and evidence for
inclusion. LSE media policy brief 3. Available at:
http://www.itslifejimbutnotasweknowit.org.uk/files/libraryfrom2012/Digital_Underclass.pdf
HMI (2016a). Holistic Management Discussion Group. Facebook. Retrieved from
https://www.facebook.com/groups/317076374203/
HMI (2016b). Resources. Holistic Management International, HMI. Retrieved from
http://holisticmanagement.org/resources/
9
Ingram, J. (2008). Are farmers in England equipped to meet the knowledge challenge of sustainable soil
management? An analysis of farmer and advisor views. Journal of Environmental Management86 (1),
214-228.
Ingram, J., Fry, P., and Mathieu, A. (2010). Revealing different understandings of soil held by scientists
and farmers in the context of soil protection and management. Land Use Policy 27 (1), 51-60.
IPCUK (2015). 12th International Permaculture Conference in Britain. 8-16 September 2015. London,
United Kingdom. Retrieved from: https://www.ipcuk.events/conference/programme
Islam, M. M., Barnes, A., and Toma, L. (2013). An investigation into climate change scepticism among
farmers. Journal of Environmental Psychology 34 (0), 137-150.
Kings, D. and Ilbery, B. (2010). The environmental belief systems of organic and conventional farmers:
evidence from central-southern England. Journal of Rural Studies 26 (4), 437-448.
Klerkx, L. and Jansen, J. (2010). Building knowledge systems for sustainable agriculture: Supporting
private advisors to adequately address sustainable farm management in regular service contacts.
International Journal of Agricultural Sustainability 8 (3), 148-163.
Klerkx, L., Schut, M., Leeuwis, C., and Kilelu, C. (2012). Advances in knowledge brokering in the
agricultural sector: Towards innovation system facilitation. Institute of Development Studies, Oxford,
England. IDS Bulletin. Volume 43, Number 5. September 2012.
Klerkx, L. and Proctor, A. (2013). Beyond fragmentation and disconnect: Networks for knowledge
exchange in the English land management advisory system. Land Use Policy 30 (1), 13-24.
McLeod, M. (2006). They all learn the same… Don’t they? An evaluation of the learning style preference
of the NZ dairy industry. Association of International Agricultural Extension and Education AIAEE 22nd
Annual Conference Proceedings. May 14-19, 2006. Clearwater Beach, Florida, USA.
McKenzie F. (2011). Farmer-driven innovation in New South Wales, Australia. Australian Geographer 44
(1), 81-95.
Kasesalu, P. and Tallinn, J. (2003). Skype. Skype Technologies. Microsoft Corporation. 10 May 2011.
Ofcom (2013). UK Communications Infrastructure Report. Available at:
http://stakeholders.ofcom.org.uk/binaries/research/telecoms-research/infrastructure-report/IRU_2013.pdf
Oreszczyn, S., Lane, A., and Carr, S. (2010). The role of networks of practice and webs of influencers on
farmers' engagement with and learning about agricultural innovations. Journal of Rural Studies 26 (4),
404-417.
ORFC (2016). Oxford Real Farming Conference. 6-7 January 2016. Oxford City Hall, Oxford, England.
Retrieved from: http://www.oxfordrealfarmingconference.org
Permaculture Association UK (2016a). Facebook Page. Retrieved from
https://www.facebook.com/PermacultureAssociation
Permaculture Association UK (2016b). Knowledge Base. Retrieved from https://www.permaculture.org.uk
Permaculture Association UK (2016c). Online Courses. Retrieved from
https://www.permaculture.org.uk/education/course-listing/online
10
PFLA (2016a). Pasture for Life Official Page. Retrieved from https://www.facebook.com/pastureforlife/
PFLA (2016b). Learn More. Pasture-Fed Livestock Association, PFLA. Retrieved from
http://www.pastureforlife.org/learn-more/
RegenAG UK (2016a). Courses. RegenAG UK. Retrieved from
http://www.regenag.co.uk/index.php/course-calendar/
RegenAG UK (2016b). RegenAG UK Official Facebook Group. Retrieved from
https://www.facebook.com/groups/regenaguk/
RegenAG UK (2016c). RegenAG UK Biofertilizers group. Retrieved from
https://www.facebook.com/groups/289857971191500/
Rydberg, A., Olsson, J., Gilbertsson, M., and Algerbo, P. A. (2008). Data- och informationshantering i
lantbruket ett va¨xande problem. Rapporter lantbruk och industri, R 365.
RWAS (2016). Facilities and other events. Royal Welsh Agricultural Society. Retrieved from:
http://www.rwas.wales/facilities-and-other-events/
Röckmann, C., Ulrich, C., Dreyer, M., Bell, E., Borodzicz, E., Haapasaari, P., Hauge, K. H., Howell, D.,
Mäntyniemi, S., Miller, D., Tserpes, G., and Pastoors, M. (2012). The added value of participatory
modelling in fisheries management What has been learnt? Marine Policy 36 (5), 1072-1085.
Soil Association (2016). Field Labs. Duchy Future Farming Programme. Soil Association, The Organic
Research Centre, Duchy Originals, The Prince of Wales’ Charitable Trust.
Swanson, B. E. and Rajalahti, R. (2010). Strengthening agricultural extension and advisory systems:
Procedures for assessing, transforming and evaluating extension systems. [online] World Bank
Agriculture and Rural Development discussion paper 45. Washington DC: IBRD / World Bank. Available
at: http://siteresources.worldbank.org/INTARD/Resources/Stren_combined_web.pdf
TFF (2014). The Farming Forum. Retrieved from: http://thefarmingforum.co.uk/index.php
Three Counties Farmer (2016). Digital Edition of the Three Counties Magazine. Retrieved from:
http://edition.pagesuite-professional.co.uk//launch.aspx?pbid=95612ca1-dfcf-493e-9676-2b24fee885bc
Twitter (2012). Group #ClubHectare. Retrieved from:
https://twitter.com/search?f=tweets&vertical=default&q=%23clubhectare&src=typd
Twitter (2011a). Account @AgriChatUK. Retrieved from: https://twitter.com/AgriChatUK
Twitter (2011b). Account @orfc. Oxford Real Farming Conference official account. Retrieved from:
https://twitter.com/orfc
Warwickshire Rural Hub (2016). Official Facebook Page. Retrieved from:
https://www.facebook.com/Warwickshire-Rural-Hub-638060366217440/
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... With the rapid development of internet technology and its deep penetration into rural areas, the internet has become a crucial source of information and resources for farmers [58]. This shift has not only broadened farmers' access to information but also profoundly impacted their adoption and utilization of clean energy [59]. ...
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Enhancing farmers’ adoption of clean energy is crucial for promoting sustainable rural development and ecological environmental protection. It not only reduces the consumption of traditional fossil fuels, greenhouse gas emissions, and environmental pollution but also optimizes the structure of rural energy consumption, improves farmers’ quality of life, and supports the goal of building a green countryside. This paper investigates the impact of internet use on farmers’ adoption of clean energy and the associated peer effects, further exploring how internet use influences these peer effects. The analysis is based on data from the 2018 and 2020 waves of the China Family Panel Studies (CFPS). The study’s findings reveal that (1) farmers’ adoption of clean energy exhibits a significant peer effect, and internet use also has a significant positive impact on this adoption. Both the peer effect and internet use effectively enhance farmers’ clean energy utilization, a conclusion that holds even after robustness checks. (2) Internet use significantly strengthens the peer effect, particularly when it is used for social and entertainment purposes, where this reinforcing effect is most pronounced. (3) The peer effect, the impact of internet use on clean energy adoption, and the strengthening of the peer effect by internet use vary according to farmers’ geographical location and household income. These findings provide valuable insights and recommendations for improving policies aimed at promoting clean energy adoption among farmers, ultimately fostering its broader diffusion and application in rural areas.
... integration of technology With advances in technology, agricultural extension services have embraced digital tools and platforms to reach a wider audience. Mobile phones, internet connectivity, and social media have become essential tools for disseminating information, providing timely advice, and facilitating knowledge exchange between farmers and extension workers (Burbi & rose, 2016). ...
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Agriculture is a critical sector of Ethiopia’s economy and requires efficient and innovative methods to meet the information needs of smallholder farmers, who are the backbone of the sector. The country’s agricultural activity is dominated by smallholder farmers. Farmers need information along the agricultural value chain on what to grow, how to grow it, and when and to whom to sell it for maximum profit. Therefore, agricultural extension services could play a key role in meeting the information needs of farmers to implement good agricultural practices. Information Communication Technology (ICT)-based agricultural extension service is an emerging extension modality due to the expansion of communication technology in the country. Therefore, this review addresses the status and effectiveness of ICT-based agricultural extension and advisory services in Ethiopia. Based on an empirical literature review radio, Interactive Voice Response (IVR) and Short Message Service (SMS) are the major ICT-based Agricultural extension and advisory services delivery. It has massively contributed to providing timely, relevant, and consistent information not only to the farmers but also to the wholesalers, and retailers. In particular, since the outbreak of COVID-19 pandemic, ICT-based extension services have been widely used as an agricultural extension delivery tool. Despite the progress, the application of ICT in agricultural extension and advisory services in Ethiopia is still in its infancy. Therefore, development actors should focus on infrastructure development, digital literacy programs, content localization and diversification, and installation of ICT kiosks using a public-private partnership approach.
... However, the communication technology of vegetable farmers was mostly limited to the use of mobile phones (Pangilinan-Jamolin et al., 2019). Despite this, there was still the potential for enhancing knowledge sharing through information and communication technologies, Jalotjot and H. Tokuda such as the Internet and social media (Burbi and Rose, 2015). ...
... This, coupled with their experience of information cocoons-the selective exposure, absorption, and retention of information based on personal interests, preferences, and habits-creates a self-imposed boundary that restricts their exposure to diverse perspectives. These limitations hinder their ability to adopt ecological technologies [19][20][21]. ...
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The application of ecological techniques by farmers is important for ensuring the environmentally sustainable advancement of the grain sector. Based on micro-level survey data from 921 Chinese wheat growers in the Hebei and Henan provinces, this study employed an endogenous switching probit model and counterfactual analysis to investigate the impact and mechanisms of digital information utilization on ecological production technology adoption. The results indicated that 43.87% of sample wheat farmers had a low level of adoption of ecological techniques. The utilization of digital information significantly promoted farmers’ adoption. If farmers who currently used digital information were to opt-out, the probability of their high adoption would decrease by 11.26%. The utilization of digital information significantly enhanced the adoption of ecological technologies through three mediating factors: technological cognition, production monitoring, and market channels. Therefore, it is imperative to encourage farmers to broaden their social networks and enhance their perception of the importance of digital information. Additionally, it is essential to promote the industrialization and scale operation of wheat production, direct policy subsidies towards new types of management entities, and ensure the accuracy of the supply of digital information for green production through multiple channels. Therefore, it is imperative to expand farmers’ social networks and leverage rural communities to increase their perceived importance of digital information. Governments should increase subsidies and promote the scale and industrialization of wheat production. Moreover, the accuracy of digital information supply for sustainable production should be promoted through digital learning platforms, production monitoring systems, and e-commerce networks.
... P>0.05). In their research in the UK, Burbi and Rose (2016) found that limitations in the use of social media still include access to fast and reliable interconnections and the availability of spare time to browse through the mass of Twitter feeds, Facebook updates and forum feeds. ...
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This study was conducted in Hatay and Mardin provinces to investigate the tendency of farmers to use social media, the difficulties they face during the use of social media and the variables affecting the use of social media by farmers. The research consisted of data obtained from a face-to-face survey of 221 producers using proportional sampling method. Descriptive statistics were used for data analysis, and chi-square analysis was used to examine the relationships between variables. The results showed that the rate of producers using social media was 77.8% in Mardin province and 73.8% in Hatay province. Additionally, farmers mostly use social media for communication with families and access to new news. Also, the most commonly used social media applications in both provinces were WhatsApp and Facebook. As a result of this research, it was determined that farmers don't use social media sufficiently for agricultural activities, and it was suggested that farmers' organizations and related institutions should carry out information activities for farmers to encourage farmers to use social media efficiently.
... Internet memungkinkan petani untuk berbagi pengalaman mereka, yang secara tradisional akan melalui gerbang pertanian, melalui YouTube, forum web, dan grup online. Pencarian informasi dilakukan melalui internet karena hal tersebut merupakan cara yang efektif karena tidak terbatas oleh jarak dan waktu (Burbi & Hartless Rose, 2016). ...
Article
This study aims to analyzed: (1) the use of the internet and social media by dairy farmers from the Rejeki Barokah livestock group as a source of information during the Covid-19 pandemic, (2) factors that influence the utilization and use of social media by dairy farmers from the Rejeki Barokah cattle’s group as a source of information for farmers during the Covid-19 pandemic, (3) the impact of using the internet and social media by dairy farmers from the Rejeki Barokah livestock group as a source of information in Bringin Village, Wajak District, Malang Regency in January-March 2022. This research was conducted using qualitative methods. Main informants in this study was determined by purposive sampling method as many as 5 resource persons and key informants using snowball sampling as many as 7 sources. The method of collecting data is through in-depth interviews or in-depth interviews. The data analysis in this study used the Miles and Huberman data analysis technique and the validity of the data was determined by the triangulation method. Based on the results of data analysis, data obtained: (1) The use of the internet and social media is the use of Whatsapp, Facebook, Browser, and Youtube. (2) The factor of using social depends on their occupation, culture, personality, level of awareness of information, gender, age, availability of time, access, cost, information overload, and the importance of using social media. (3) The impact arising from the use of social media by members in the form of cognitive, conative, affective and psychomotor effects, the use of social media also has an impact on the knowledge of farmers and from the emergence of these impacts can also have an impact on increasing the scale of the livestock business of members Rejeki Barokah Livestock group
... Das et al. (2019) observed that farmers use Facebook and Twitter to learn more about new technologies, particularly those already using an existing SFT on farm. YouTube has enabled farmers to share videos of their practices as well as learning from other farmers, technology vendors and experts (Burbi and Hartless Rose, 2016). WhatsApp has become popular with farmers creating or joining groups created by government or knowledge transfer bodies (Colussi et al., 2022;Vedeld et al., 2020). ...
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Purpose This paper aims to investigate how actors in the farmer’s network influence the adoption of smart farming technology (SFT) and to understand how social media affects this adoption process, in particular focusing on the influence of social media on trust in knowledge dissemination within the network. Design/methodology/approach The methodology used a two-stage process, with semi-structured interviews of farmers, augmented by a netnographic approach appropriate to the social media context. Findings The analysis illustrates the key role of the farmer network in the dissemination of SFT knowledge, bringing insight into an important B2B context. While social media emerges as a valuable way to connect farmers and promote discussion, it remains underused in knowledge dissemination on SFT. Also, farmers exhibit more trust in the content from peers online rather than from SFT vendors. Originality/value Novel insights are gained into the influence of the farming network on the accelerated adoption of SFT, including the potential role of social media in mitigating the homophilous nature of peer-to-peer interactions among farmers through exposure to more diverse actors and information. The use of a social network theory lens has provided new insights into the role of trust in shaping social media influence on the farmer, with variances in farmer trust of information from technology vendors and from peers.
... Cuendet et al. (2013) found out that in countries with low-literacy level farmers, tools providing speech-based interfaces to present videos in local languages failed to become fully inclusive. However, since the audience of TNs is mostly at the European level, the level of literacy of farmers is sufficiently high to read subtitles, even in remote rural areas (Burbi, S., Rose 2016). Another aspect related to reaching remote rural areas may be poor digital connectivity. ...
Chapter
The Nutritional requirements of trees have received less attention compared to agricultural crops. Tree species provide a long-term investment for many potential benefits for human well-being. Nutritional supplementation is a requisite for improvement in the growth and quality of planting stock. Biofertilizers are a boon for chemical fertilizers, which produce several environmental hurdles. Certain groups of bacteria and fungi are majorly used as biofertilizers in tree cultivation. It is a sustainable approach to support growth in these higher plants. Heavy reliance on the indiscriminate use of chemical fertilizers results in adverse effects on the soil ecosystem, environmental quality, and human and animal health risks. The practice of inorganic fertilizers can be greatly reduced by substituting them with eco-friendly microbial biofertilizers or bio-inoculants. Plant Growth-Promoting Rhizobacteria (PGPR) and mycorrhizal fungi are frequently involved in biofertilizer formulations, providing plants with nutrients required to enhance their growth, increase yield, manage abiotic and biotic stress, and prevent phytopathogens attacks. Being an alternate natural source of nutrients, biofertilizers help sustain soil health, fertility, and productivity while significantly improving the growth of plants. In addition, these microbial inoculants are organic, sustainable, and environmentally friendly, thereby reducing the ill effects on human health and the soil biome. Thus, bio-inoculants form an attractive and pecuniary approach towards the development of sustainable forestry. The availability of pertinent microbial strains can increase the survival as well as the quality of seedlings and other propagation units. Hence, the chapter aims to encompass the importance, roles, and application of biofertilizers in improving tree nutrition.
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The IPM WORKS IPM Resource Toolbox (Toolbox) has been developed as an interactive, online repository of integrated pest management (IPM) resources. Populated with high priority resources for farmers and their advisors during the project, its structure enables additional resources added over time. The repository is a public interactive website, available to anyone looking to access, understand, and implement IPM. Built on an open-source content management system, the toolbox is designed to require minimal post-production site maintenance and support, while being easily expanded to integrate resources from future initiatives. To ensure an efficient but comprehensive website design, population, maintenance, a survey of target user needs was conducted. Different type of IPM stakeholders, both internal and external to the IPMworks project, ranked the key requirements for the Toolbox, such as practical information about diseases and pests’ management and economic thresholds: 343 feedbacks and answers from a survey of 10 questions, carried out across Europe in four languages, provided the key elements and foundation for the IPM Resource Toolbox website development and specification. The Toolbox resources are explained in different languages, with images, divided by topics, with the possibility to find additional details and accessible by smartphone.
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Few studies have examined the types of educational delivery methods preferred by farmers (Eckert & Bell, 2005; Eckert & Bell, 2006). The research project reported here explored the preferred learning methods of farmers in Louisiana, Tennessee, and Virginia. Data on learning methods collected directly from farmers were compared with preferred teaching methods of Extension agents and specialists. The findings should shape agent and specialist perspectives on appropriate educational delivery methods when educating farmers and working towards farmer adoption of new practices.
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The process of knowledge brokering in the agricultural sector, where it is generally called agricultural extension, has been studied since the 1950s. While agricultural extension initially employed research push models, it gradually moved towards research pull and collaborative research models. The current agricultural innovation systems perspective goes beyond seeing research as the main input to change and innovation, and recognises that innovation emerges from the complex interactions among multiple actors and is about fostering combined technical, social and institutional change. As a result of adopting this innovation systems perspective, extension is refocusing to go beyond enhancing research uptake, and engaging in systemic facilitation or what has been called ‘innovation brokering’. Innovation brokering is about performing several linkage building and facilitation activities in innovation systems, creating an enabling context for effective policy formulation and implementation, development and innovation. Conclusions are that an innovation systems perspective also has relevance for sectors other than agriculture, which implies that in these sectors knowledge brokering as enhancing research uptake and use should be complemented with broader innovation brokering activities.
Article
This paper explores the potential for farmers’ engagement on the issues related to greenhouse gas (GHG) emission mitigation in extensive low-input livestock farming systems by adopting a framework based on Participatory Action Research (PAR) integrating quantitative evidence on greenhouse gas emission impacts at the farm level and qualitative data on the obstacles to the adoption of innovation based on farmers’ perceptions and attitudes to climate change. The study aims at building social capital among 14 farmers in the South West and West Midlands regions in England, and it evaluates the potential for adoption of emission mitigation strategies. The Rapid Farm Practices Appraisal (RFPA) tool was created to assess farm practices based on their mitigation potential. Practices were assessed twice over 6-9 months. Semi-structured interviews were used to assess barriers and opportunities to farmer engagement and on-farm innovation. Farmers were invited to a focus group meeting to network with other farmers and engage with researchers. All farmers participated in the 2 farm assessments, but only half the farmers adopted changes in farm management. All farmers appreciated the RFPA tool, the clearness of the information provided and the focus of the tool on practices directly. The main obstacles to innovation were limited financial capital, lack of trust in government action and confusion over the effectiveness of farm advice on mitigation. The lack of long-term flexibility of agricultural policies and the source of information greatly influenced the acceptance of advice. Results suggest the potential for the expansion of the RFPA tool to include economic assessment of farm practices and the engagement of a larger pool of farmers and farming systems. The tool could be used to support the GHG Action Plan and future environmental policies, and as integrated self-assessment tool for farmers under Environmental Stewardship Schemes.
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Knowledge generation and the interactions that allow for knowledge exchange are key processes of innovation. Yet these processes are not well understood at the farm level, nor are they well reflected in policy approaches for agricultural innovation. Farmers in New South Wales have used diverse ways to implement innovations in land management. They employ a range of strategies including observing signals from the landscape, independent testing and trialling, use of agronomists, participation in farmer groups and in farmer-driven research programmes. Steps to foster farmer-driven innovations and knowledge-intensive agricultural systems require greater subtlety to enable flexibility, the incorporation of contemporary scientific knowledge and support for sustainable initiatives. More research on innovation and on policy engagement is required to foster on-farm innovative capacity.
Article
Although climate change is a major challenge facing the world today, a considerable proportion of the general public in the UK and other Western countries have been found to be sceptical of the issue. Given that livestock farming is a major contributor to climate change, this study explored the extent to which climate change scepticism prevailed among Scottish dairy farmers, the factors that affected their scepticism, and the lessons that could be derived for dealing with this challenge. According to Rahmstorf's (2004) typology of trend, risk and attribution scepticism, appropriate statements were developed and measured on Likert-type scales. The factors that affected these three categories of scepticism were identified by using a Structural Equation Modelling approach. The prevalence of trend and attribution scepticism was quite low among the farmers, but the prevalence of risk scepticism was considerably high. The extent of these scepticisms was significantly affected by farmers' age, economic status, education, experience with disease and pest infestations, use of media, contacts with agricultural extension consultants, environmental values, and economic values. The effects of these factors on scepticism and the directions of these effects were however different for the three categories of scepticism proposed by Rahmstorf. The theoretical and policy implications of these findings are discussed.
Article
Little comparative work has been conducted on the environmental belief systems and behaviours of conventional and organic farmers, especially in relation to farming culture, the environment and lowland farmland avifauna. Adopting a modified behavioural approach, this paper analyses the ways in which the environmental attitudes and understandings of farmers in central-southern England influence their behaviour. Key stakeholder and farmer interviews and a focus group discussion showed how some organic farmers tend to have small, diverse and untidy farms, ecocentric attitudes and a non-exploitative approach towards farming which includes an appreciation of farmland birds. This often contrasts with the tidy, well-organised conventional farmers with their larger, specialised farms, technocentric attitudes and exploitative view of nature, frequently related to creating pheasant cover and the belief that corvids and birds of prey are vermin and should therefore be eradicated. However, these attitudes and behaviours may not necessarily be representative of any differences between those farmers loosely labelled as ‘organic’ and ‘conventional’.
Article
The New Zealand Dairy industry is committed to developing the knowledge and skills of its farmers by investing time, energy and money into training activities. What is uncertain is how effective this training is in terms of learning. It has been proposed that effectiveness of training is largely determined by the learning styles of the participants relative to that of the trainer. The term "learning styles" refers to an individual's characteristics and preferred way of gathering, organising and thinking about information. An individual's learning style is expressed as either a single preference or, most commonly, multi-modal. In the study reported here, questionnaires to determine their learning styles were delivered to every dairy farmer supplying Fonterra (n=8000). From these data reasonable assumptions can be made as to the most appropriate and effective extension and training materials to promote learning. Results showed definite single mode preferences for read/write (24%) and kinaesthetic (18%) and a lower percentage of multimodal preferences compared with the reference database. Dairy farmers over 35 years of age showed a definite preference for single mode read/write compared to those younger who were predominantly single mode kinaesthetic. There was also a difference between the learning style preferences between sexes, women displaying a single mode preference for read/write and men almost even preferences for read/write and kinaesthetic modes. Of significance are the low scores for aural and visual learning styles as single preferences. However, as discussion groups are still one of the most common extension activities conducted, this may explain why the current modes of delivering training to the dairy sector are apparently falling short of participants' expectations. Three Key Learnings: (1) NZ dairy farmers have a greater proportion of single mode preferences, compared with other populations researched who favour multi-modal learning styles (55-70%). Therefore they have less flexibility in switching modes and will be distracted from learning when information is presented in their less preferred modes. (2) NZ dairy farmers have a stronger preference for Read/write and Kinaesthetic learning styles than for either Aural/oral or Visual learning styles. (3) NZ dairy farmers can be segmented on the basis of their different learning style preferences and gender and/or position in the industry. Background The New Zealand Dairy Industry is committed to developing the knowledge and skills of its farmers by investing time, energy and money into training activities. What is uncertain is how effective this training is in terms of cognitive learning and changed attitudes and/or behaviours as a consequence. The industry understands the training needs in terms of skills and knowledge required from an industry perspective, but little is understood about the needs of the participants as learners, to ensure they get maximum benefit from their training.