Nigel Maxted’s research while affiliated with University of Birmingham and other places

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Publications (292)


Cultivated yam species and number of their priority CWR
Percentage of endemicity of global yam priority CWR
Species richness of the 27 global yam priority CWR
Species richness rarefaction of the 27 global yam priority CWR
Taxa richness based on the predicted distribution of the 27 global yam priority CWR for Africa obtained through SDMs conducted in Maxent

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Global Genepool Conservation and use Strategy for Dioscorea (YAM)
  • Article
  • Full-text available

November 2024

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16 Reads

Biodiversity and Conservation

Michael Ugochukwu Nduche

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Nigel Maxted

The global genepool conservation and use strategy for yam were developed in this study. Diversity analysis, and in situ and ex situ conservation gap analyses were carried out for the 27 global priority yam crop wild relatives (CWR) at taxon and ecogeographic levels to determine their representativeness in conservation actions. Hotspots were found in Nzerekore region of Guinea, Nimba and Grand Gedeh regions of Liberia, Montagnes, Sassandra- Marahouse, and Bas – Sassandra regions of Cote d’Ivoire, Volta, Greater Accra and Eastern regions of Ghana, Centrale and Plateau regions of Togo, Donga, Oueme, Atlantique, Littoral and Plateau provinces of Benin, Southwest zone of Nigeria, Es region of Cameroon, Sangha- Mbaere region of Central Africa Republic. Likouala and Sangha regions of the Republic of the Congo, Northeast of India, Northern, Central, Western, Eastern and Northeast regions of Thailand, West of Cambodia, South Central Coast, Central Highlands, Southeast and Makong River Delta regions of Vietnam, Xaisomboun, Bolikhamxai, and Viangchan prefecture provinces of Lao People’s Democratic Republic. A total of 13 potential reserve sites were identified in 13 countries, with four locations in the network of protected area (PA). 22 priority CWR (81%) were conserved ex situ, but only 15.38% of the taxa had at least 50 accessions in genebanks, and 65.38% of the priority CWR are underrepresented in genebanks, and 19.23% of the species are not represented in ex situ collections. The findings and recommendations of this study will guide the production and implementation of effective long-term conservation action and sustainable utilization of global priority yam CWR. The active conservation of the global yam priority species will underpin food security and mitigate climate change.

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Figure 1. Distribution of CWR taxa in the checklist in Sudan and South Sudan
Figure 2. Distribution of priority CWR in Sudan and South Sudan
Figure 3. Diversity of taxa among CWR families within the priority CWR inventory in Sudan and South Sudan.
Figure 4. Genetic relatedness and use potential for priority CWR inventory in Sudan and South Sudan. a) shows the genetic relatedness of the priority CWR inventory in Sudan and South Sudan, based on the gene pool and taxon group concepts. b) illustrates the status of the priority CWR inventory in Sudan and South Sudan for crop improvement, categorized as potential, confirmed, confirmed and potential, and unconfirmed.
Checklist and prioritization of crop wild relatives in Sudan and South Sudan

October 2024

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393 Reads

Genetic Resources

Crop wild relatives (CWR) encompass wild plant species or subspecies closely related to domesticated crops. This study presents the first comprehensive checklist and prioritized inventory of CWR for Sudan and South Sudan. Building on the regional CWR list for Northeast Africa, we identified 499 CWR taxa belonging to 44 families, with 90% of these being native species. The most prominently represented families were Poaceae (148), Fabaceace (72) and Convolvulaceae (43), while Panicum (32), Eragrostis (27), Ficus (24) and Pennisetum (20) were the most frequent genera. A prioritized inventory of 85 CWR taxa was developed based on three criteria: economic value, utilization potential and threat status. The prioritized CWR are predominately native (78%) and encompass 12 families dominated by Poaceae (38), followed by Solanaceae (9), Fabaceae (6) and Cucurbitaceae (6). Priority genera included 27, with Digitaria (17), Solanum (9) and Cucumis (5) emerging as key genera for conservation attention. This comprehensive national CWR inventory provides a crucial foundation for developing targeted conservation strategies in Sudan and South Sudan.


The Taxonomic Status of Genera within the Fabeae (Vicieae), with a Special Focus on Pisum

June 2024

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89 Reads

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1 Citation

Diversity

The taxonomy of the tribe Fabeae (Vicieae) has long been problematic, but an analysis by Schaefer et al. in 2012 gave an exceptionally clear view of the tribe and noted the possibility that some nomenclatural adjustments may be required at some future date. These authors suggested several options, expressing some preferences. However, there has been a recent change to formally accepted names, implementing one of these possibilities, but without any additional relevant information. This change seems unjustified and unhelpful. We therefore present an argument for the retention, or re-instatement, of the genera Pisum, Vavilovia, and Lens until such time as new data support this requirement and there is no nomenclatural solution that is both accurate and convenient.


Figure 1. (A) Summary of the consensus Maximum Likelihood phylogeny of the Fabeae from Additional file 12, Figure S10 of Schaefer et al. [7]. Bootstrap values are to the right and, for reference, nodes are indicated by a letter. Lathyrus-1 = most Lathyrus; Lathyrus-2 = L. neurolobus; Lathyrus-3 = L. articulates, L. clymenum and L. ochrus; Vicia-1 = Vicia pubescens, V. tenuissima and V. tetrasperma; Vicia-2 = most Vicia; Vicia-3 = V. malosana, V. claessensii, V. paucifolia, V. iranica and V. subvillosa; Vicia-4 = V. crocea; Vicia-5 = V. gigantea, V. nigricans and V. menziesii; Vicia-6 = V. cypria, V. lunata, V. sylvatica, V. ervilia, V. articulata, V. monanthos and V. hirsuta. (B) Summary Chronogram of the Fabeae for relevant nodes, from Additional file 11, Figure S9 of Schaefer et al. [7]. Numbers are age estimates in Myr. The grey boxes indicate the 95% confidence intervals of the age estimates. In part B, nodes indicated by letters with a prime refer to the equivalent node, with the same letter, as shown in part A and as a letter when there is no corresponding bifurcation in the two source data files. Names in grey were suggested [8] new generic names.
The Taxonomic Status of Genera within the Fabeae (Vicieae), with a Special Focus on Pisum

June 2024

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68 Reads

The taxonomy of the Fabeae (Vicieae) has long been problematic, but an analysis by Schaefer et al in 2012 gave an exceptionally clear view of the tribe and noted the possibility that some nomenclatural adjustments may be required at some future date. These authors suggested several options, expressing some preferences. However, there has been a recent change to formally accepted names implementing one of these possibilities, but without any additional relevant information. This change seems unjustified and unhelpful. We therefore present an argument for the retention, or re-instatement, of the genera Pisum, Vavilovia and Lens until such time as new data supports this requirement and there is no nomenclatural solution that is both accurate and convenient.


Review of Crop Wild Relative Conservation and Use in West Asia and North Africa

May 2024

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56 Reads

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1 Citation

Plants

Ensuring global food security in the face of climate change is critical to human survival. With a predicted human population of 9.6 billion in 2050 and the demand for food supplies expected to increase by 60% globally, but with a parallel potential reduction in crop production for wheat by 6.0%, rice by 3.2%, maize by 7.4%, and soybean by 3.1% by the end of the century, maintaining future food security will be a challenge. One potential solution is new climate-smart varieties created using the breadth of diversity inherent in crop wild relatives (CWRs). Yet CWRs are threatened, with 16–35% regarded as threatened and a significantly higher percentage suffering genetic erosion. Additionally, they are under-conserved, 95% requiring additional ex situ collections and less than 1% being actively conserved in situ; they also often grow naturally in disturbed habitats limiting standard conservation measures. The urgent requirement for active CWR conservation is widely recognized in the global policy context (Convention on Biological Diversity post-2020 Global Biodiversity Framework, UN Sustainable Development Goals, the FAO Second Global Plan of Action for PGRFA, and the FAO Framework for Action on Biodiversity for Food and Agriculture) and breeders highlight that the lack of CWR diversity is unnecessarily limiting crop improvement. CWRs are not spread evenly across the globe; they are focused in hotspots and the hottest region for CWR diversity is in West Asia and North Africa (WANA). The region has about 40% of global priority taxa and the top 17 countries with maximum numbers of CWR taxa per unit area are all in WANA. Therefore, improved CWR active conservation in WANA is not only a regional but a critical global priority. To assist in the achievement of this goal, we will review the following topics for CWRs in the WANA region: (1) conservation status, (2) community-based conservation, (3) threat status, (4) diversity use, (5) CURE—CWR hub: (ICARDA Centre of Excellence), and (6) recommendations for research priorities. The implementation of the recommendations is likely to significantly improve CWRs in situ and ex situ conservation and will potentially at least double the availability of the full breadth of CWR diversity found in WANA to breeders, and so enhance regional and global food and nutritional security.


PROJECTED CHANGE IN DISTRIBUTION PATTERNS OF CROP WILD RELATIVES UNDER CLIMATE CHANGE: A CASE STUDY OF THE FERTILE CRESCENT

May 2024

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31 Reads

International Journal of Big Data Mining for Global Warming

The principal aim of this paper is to evaluate alterations in the geographical distributions of priority crop wild relatives (CWRs) within the Fertile Crescent Region. The analysis encompasses a comprehensive set of 441 priority CWRs. To compile species distribution information, a meticulously constructed database of occurrence records was utilized. The process involved gathering current and projected climate data from WorldClim to facilitate the evaluation. This study employed MaxEnt version 3.4.1 for species distribution modeling (SDM) considering two distinct dispersal scenarios. One scenario proposed that the CWR taxa were incapable of adapting to their preferred weather conditions, while the other scenario suggested that CWR could track suitable climates to ensure their survival. The generated maps underwent processing in DIVA-GIS version 7.5. Notably, Aegilops bicornis, a wild relative of bread wheat, and Triticum monococcum, a wild relative of wheat, are anticipated to face substantial impacts due to climate change. Specifically, the dispersal of T. monococcum is predicted to shift toward the north, where new suitable areas are expected to emerge in Northern Iraq. Conversely, Cicer bijugum, a wild relative of chickpea, Vicia grandiflora, a wild relative of common vetch, and Beta corolliflora, a wild relative of sugar beet, are projected to experience a comparatively slight impact from climate change, as their potential distribution areas are estimated to diminish. Overall, this study foresees a decline in CWRs across the Fertile Crescent, particularly noting reduced habitats for the CWRs in Turkey.


European genetic resources conservation in a rapidly changing world: three existential challenges for the crop, forest and animal domains in the 21st century

March 2024

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88 Reads

Genetic Resources

Even though genetic resources represent a fundamental reservoir of options to achieve sustainable development goals in a changing world, they are overlooked in the policy agenda and severely threatened. The conservation of genetic resources relies on complementary in situ and ex situ approaches appropriately designed for each type of organism. Environmental and socioeconomic changes raise new challenges and opportunities for sustainable use and conservation of genetic resources. Aiming at a more integrated and adaptive approach, European scientists and genetic resources managers with long experience in the agricultural crop, animal and forestry domains joined their expertise to address three critical challenges: (1) how to adapt genetic resources conservation strategies to climate change, (2) how to promote in situ conservation strategies and (3) how can genetic resources conservation contribute to and benefit from agroecological systems. We present here 31 evidence-based statements and 88 key recommendations elaborated around these questions for policymakers, conservation actors and the scientific community. We anticipate that stakeholders in other genetic resources domains and biodiversity conservation actors across the globe will have interest in these crosscutting and multi-actor recommendations, which support several biodiversity conservation policies and practices.


Fig. 1. Bayesian majority-rule (50%) consensus tree of the combined chloroplast and ITS sequence data matrix. Support values on branches are Bayesian posterior probability/maximum parsimony bootstrap. Clades and species (including study samples) are colour-coded; their geographic distribution is indicated in Fig. 2.
A comparison of the individual and combined datasets from parsimony analysis.
DNA barcoding of the genus Verbascum (Scrophulariaceae) in the Arabian Peninsula

March 2024

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58 Reads

Taxon

Verbascum and Rhabdotosperma are members of the family Scrophulariaceae. The first genus comprises approximately 360 species from almost all parts of the world, while the second contains a total of 8 species from tropical Africa and the Arabian Peninsula. Since 1977, the relationships between Verbascum and Rhabdotosperma continue to be contested. The present study aims to present the phylogenetic relationships and status among Verbascum species in the Arabian Peninsula. For phylogenetic analyses, maximum parsimony and Bayesian inference were performed. In total, 236 DNA sequences from 59 specimens of Arabian Verbascum were analysed. The phylogenetic analysis of one nuclear (ITS) and three chloroplastic (rbcL, matK, trnL) markers confirmed the monophyly of Verbascum, including the genus Rhabdotosperma. In addition to presenting novel phylogenetic relationships among the different Verbascum species in the Arabian Peninsula, our study reduced the species count of Arabian Verbascum to 16. Moreover, the phylogenetic analysis strongly supports the reinstatement of the genus Rhabdotosperma into Verbascum based on the Bayesian and maximum parsimony analyses.


Generalised LR threat assessment procedure.
FIGURE 1
of LR threat assessment criteria and categories.
FIGURE 2
Towards a practical threat assessment methodology for crop landraces

February 2024

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90 Reads

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3 Citations

Crop landraces (LR), the traditional varieties of crops that have been maintained for millennia by repeated cycles of planting, harvesting, and selection, are genetically diverse compared to more modern varieties and provide one of the key components for crop improvement due to the ease of trait transfer within the crop species. However, LR diversity is increasingly threatened with genetic erosion and extinction by replacement with improved cultivars, lack of incentives for farmers to maintain traditional agricultural systems, and rising threats from climate change. Their active conservation is necessary to maintain this critical resource. However, as there are hundreds of thousands of LR and millions of LR populations for crops globally, active conservation is complex and resource-intensive. To assist in implementation, it is useful to be able to prioritise LR for conservation action and an obvious means of prioritisation is based on relative threat assessment. There have been several attempts to propose LR threat assessment methods, but none thus far has been widely accepted or applied. The aim of this paper is to present a novel, practical, standardised, and objective methodology for LR threat assessment derived from the widely applied IUCN Red Listing for wild species, involving the collation of time series information for LR population range, LR population trend, market, and farmer characteristics and LR context information. The collated information is compared to a set of threat criteria and an appropriate threat category is assigned to the LR when a threshold level is reached. The proposed methodology can be applied at national, regional, or global levels and any crop group.


IUCN Red List status of 14,669 European species
Abbreviations: EX: Extinct, EW: Extinct in the Wild, RE: Regionally Extinct, CR: Critically Endangered, EN: Endangered, VU: Vulnerable, DD: Data Deficient, NT: Near Threatened, LC: Least Concern.
Species richness in Europe
Spatial distribution of terrestrial and freshwater species richness in Europe based on an analysis of all European IUCN Red List assessments.
Major threats to biodiversity in Europe
For all species, vertebrates, invertebrates and plants (CR: Critically Endangered, EN: Endangered, VU: Vulnerable, DD: Data Deficient, NT: Near Threatened, LC: Least Concern; N: All species = 14,669, Vertebrates = 2,494, Invertebrates = 7,600, Plants = 4,575).
A multi-taxon analysis of European Red Lists reveals major threats to biodiversity

November 2023

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1,630 Reads

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24 Citations

Biodiversity loss is a major global challenge and minimizing extinction rates is the goal of several multilateral environmental agreements. Policy decisions require comprehensive, spatially explicit information on species’ distributions and threats. We present an analysis of the conservation status of 14,669 European terrestrial, freshwater and marine species (ca. 10% of the continental fauna and flora), including all vertebrates and selected groups of invertebrates and plants. Our results reveal that 19% of European species are threatened with extinction, with higher extinction risks for plants (27%) and invertebrates (24%) compared to vertebrates (18%). These numbers exceed recent IPBES (Intergovernmental Platform on Biodiversity and Ecosystem Services) assumptions of extinction risk. Changes in agricultural practices and associated habitat loss, overharvesting, pollution and development are major threats to biodiversity. Maintaining and restoring sustainable land and water use practices is crucial to minimize future biodiversity declines.


Citations (74)


... Additionally, the genera Pisum and Lathyrus both produce the phytoalexin pisatin, a compound absent in Vicia and Lens [32]. Recent taxonomic revisions have proposed placing Pisum sativum within the Lathyrus genus [33], though this reclassification has been questioned [34]. These conflicting perspectives highlight the need for further comprehensive studies, including additional molecular data and phylogenetic analyses, to clarify the relationship between these genera and ensure a more accurate classification. ...

Reference:

Wild Lathyrus—A Treasure of Novel Diversity
The Taxonomic Status of Genera within the Fabeae (Vicieae), with a Special Focus on Pisum

Diversity

... The response of each species to different climatic conditions varied, showing different dynamics of expansion and contraction across different periods. The conservation assessment and preliminary threat evaluation demonstrate the extent to which CWRs are threatened in their natural habitats and underrepresented in ex situ collections, emphasizing the urgent need for targeted conservation actions (Castañeda-Álvarez et al., 2016;Maxted et al., 2024). ...

Review of Crop Wild Relative Conservation and Use in West Asia and North Africa

Plants

... Landrace diversity is recognized by farmers as underpinning useful traits, and important local adaptations to heterogeneous environments. This is particularly challenging due to difficulties in defining what a landrace is (for advances in landrace Red Listing, see Almeida et al. 18 ). Red Listing agrobiodiversity at the landrace level would be a substantial undertaking given that there are estimated to be >7,000 edible plant species 5 and the number of landraces (or varieties) within any one of these species could be anything from a few to several thousands. ...

Towards a practical threat assessment methodology for crop landraces

... The CBD and United Nations Sustainable Development Goals (SDGs) provide critical frameworks that can enhance the efficacy of local conservation efforts by ensuring they contribute to global objectives. The CBD emphasizes the conservation of biological diversity and the sustainable use of its components, which aligns with local initiatives to enhance forest management and protect endangered species [117,118]. This alignment is crucial, as local actions often lack the necessary scale and resources to achieve significant impact in isolation [119]. ...

A multi-taxon analysis of European Red Lists reveals major threats to biodiversity

... Between 2019 and 2021 further applications of PACS were carried out in four regions of Peru within the framework of MINAM's GEF-Agrobiodiversity GIAHS project. While these four Andean regions have high levels of agrobiodiversity, there are significant differences between crops, with Puno having the highest infra-specific diversity of quinoa (Tapia et al. 2014), while Apurímac, Huancavelíca and Cuzco are more highly associated with high levels of potato (Dawson et al. 2023) and maize diversity (MINAM 2018). Consequently, different regions and communities do attribute different levels of livelihood importance to different crops and the associated need for conservation of threatened varieties, although this does not necessarily translate into the need for different public good conservation goals. ...

Identifying priority sites for the on-farm conservation of landraces and systematic diversity monitoring through an integrated multi-level hotspot analysis: the case of potatoes in Peru OPEN ACCESS EDITED BY

Frontiers in Conservation Science

... The past decades have however, witnessed a resurgence for cultivating landrace cereals in Europe and North America (see e.g., Mazé et al. 2021a;Varia et al. 2021;Martin et al. 2023;Ortman et al. 2023). This resurgence has been attributed to a response to lack of varieties adapted to organic or low-input conditions (Wolfe et al. 2008), but also to growing concerns that agrobiodiversity 1 is decreasing and to a general will to democratise plant breeding (Montenegro de Wit 2016, Kloppenburg 2014). ...

Trends, challenges and opportunities in the in situ conservation of cereal landraces in Scottish islands

Genetic Resources

... Therefore, it is essential to investigate how plant species respond spatially to climate change, both currently and in the future. This is a critical area of concern in the fields of ecology and conservation biogeography (Rahman et al. 2023;Yang et al. 2023). ...

The impact of climate change on the future distribution of priority crop wild relatives in Indonesia and implications for conservation planning
  • Citing Article
  • February 2023

Journal for Nature Conservation

... Over recent years a body of work has emerged that specifically seeks to develop and provide market-based incentives for the conservation of agrobiodiversity, such as payments for agrobiodiversity conservation services (PACS). These schemes can potentially be implemented at modest cost and designed in ways that are socially equitable (Narloch et al., 2011(Narloch et al., , 2013Wainwright et al., 2019;Drucker & Ramirez, 2020;Drucker et al., 2023). However, scaling-up these largely project-related PACS interventions to effectively secure national and global public goods requires government support facilitated through information regarding which ecosystem services the public value most and hence which types of conservation programme attributes to prioritise in order to maximise social welfare. ...

Community-Level Incentive Mechanisms for the Conservation of Crop Wild Relatives: A Malawi Case Study

Plants

... Projects like Farmer's Pride (https://more.bham.ac.uk/farmerspride/, accessed on 18 June 2024) and the SADC Crop Wild Relatives (http://www.cropwildrelatives.org/sadc-cwr-net/, accessed on 18 June 2024) have contributed to the development of tools aimed at planning for the conservation of wild crops, such as wild alfalfa and red clover in Europe and Africa [84]. important crops for food security. ...

Maximizing the crop wild relative resources available to plant breeders for crop improvement

... We present an efficient and easy-to-apply methodology for the management of forest genetic resources using different tools of the CAPFITOGEN3 package and multivariate techniques. These tools proved to be useful in performing spatial analyses of ecogeographic diversity for the design of optimized collections (Parra-Quijano et al. 2012;Marinoni et al. 2015;García et al. 2017), the ecogeographic characterization of germplasm (Quinaluisa et al. 2018;Rubio Teso et al. 2022), the prioritization of regions for in situ and ex situ conservation (Nduche et al. 2023), and the generation of provisional spatio-temporal STZs (Thomas et al. 2017;Marinoni et al. 2021). ...

In situ and ex situ conservation gap analyses of West African priority crop wild relatives

Genetic Resources and Crop Evolution