Your search keyword '"Pironon, S."' showing total 81 results

1. Adapting wild biodiversity conservation approaches to conserve agrobiodiversity

Author

Jago, S., Elliott, K. F. V. A., Tovar, C., Soto Gomez, M., Starnes, T., Abebe, W., Alexander, C., Antonelli, A., Baldaszti, L., Cerullo, G., Cockel, C., Collison, D., Cowell, C., Delgado, R., Demissew, S., Devenish, A., Dhanjal-Adams, K., Diazgranados, M., Drucker, A. G., Dulloo, M. E., Erland, B. M., Fadika, S., Huang, W., Inwood, K., Jones, S. K., Klitgaard, B. B., Lebbie, A., Lim, F. K. S., Lulekal, E., Morales-Rozo, C., Niang, F., Nic Lughadha, E., Oliveira, R. P., Ortega-Argueta, A., Pironon, S., Plummer, J. F., Ramirez, M., Ryan, P., Simbiano, F. J., Smith, R. J., Stevenson, P. C., Treydte, A. C., Victor, J. E., Weber, O., Williams, C., Yohanna, C. T., Grace, O. M., Darbyshire, I., and Borrell, J. S.

Published

2024

2. The likely extinction of hundreds of palm species threatens their contributions to people and ecosystems

Author

Bellot, S., Lu, Y., Antonelli, A., Baker, W. J., Dransfield, J., Forest, F., Kissling, W. D., Leitch, I. J., Nic Lughadha, E., Ondo, I., Pironon, S., Walker, B. E., Cámara-Leret, R., and Bachman, S. P.

Published

2022

3. A new malaria vector in Africa : Predicting the expansion range of Anopheles stephensi and identifying the urban populations at risk

Author

Sinka, M. E., Pironon, S., Massey, N. C., Longbottom, J., Hemingway, J., Moyes, C. L., and Willis, K. J.

Published

2020

4. Towards an action plan for characterizing food plant diversity

Author

Pironon, S., Cantwell-Jones, A., Forest, F., Ball, J., Diazgranados, M., Douglas, R., Hawkins, J., Howes, M.-J. R., Ulian, T., Vaitla, B., and Collar, D.

Published

2023

5. The climatic challenge: Which plants will people use in the next century?

Author

Borrell, J.S., Dodsworth, S., Forest, F., Pérez-Escobar, O.A., Lee, M.A., Mattana, E., Stevenson, P.C., Howes, M.-J.R., Pritchard, H.W., Ballesteros, D., Kusumoto, B., Ondo, I., Moat, J., Milliken, W., Ryan, P., Ulian, T., and Pironon, S.

Published

2020

6. The global distribution of plants used by humans

Author

Pironon, S., Ondo, I., Diazgranados, M., Allkin, R., Baquero, A.C., Cámara-Leret, R., Canteiro, C., Dennehy-Carr, Z., Govaerts, R., Hargreaves, S., Hudson, A.J., Lemmens, R., Milliken, W., Nesbitt, M., Patmore, K., Schmelzer, G., Turner, R.M., van Andel, T.R., Ulian, T., Antonelli, A., Willis, K.J., Pironon, S., Ondo, I., Diazgranados, M., Allkin, R., Baquero, A.C., Cámara-Leret, R., Canteiro, C., Dennehy-Carr, Z., Govaerts, R., Hargreaves, S., Hudson, A.J., Lemmens, R., Milliken, W., Nesbitt, M., Patmore, K., Schmelzer, G., Turner, R.M., van Andel, T.R., Ulian, T., Antonelli, A., and Willis, K.J.

Abstract

Plants sustain human life. Understanding geographic patterns of the diversity of species used by people is thus essential for the sustainable management of plant resources. Here, we investigate the global distribution of 35,687 utilized plant species spanning 10 use categories (e.g., food, medicine, material). Our findings indicate general concordance between utilized and total plant diversity, supporting the potential for simultaneously conserving species diversity and its contributions to people. Although Indigenous lands across Mesoamerica, the Horn of Africa, and Southern Asia harbor a disproportionate diversity of utilized plants, the incidence of protected areas is negatively correlated with utilized species richness. Finding mechanisms to preserve areas containing concentrations of utilized plants and traditional knowledge must become a priority for the implementation of the Kunming-Montreal Global Biodiversity Framework.

Published

2024

7. The global distribution of plants used by humans

Author

Pironon, S., primary, Ondo, I., additional, Diazgranados, M., additional, Allkin, R., additional, Baquero, A. C., additional, Cámara-Leret, R., additional, Canteiro, C., additional, Dennehy-Carr, Z., additional, Govaerts, R., additional, Hargreaves, S., additional, Hudson, A. J., additional, Lemmens, R., additional, Milliken, W., additional, Nesbitt, M., additional, Patmore, K., additional, Schmelzer, G., additional, Turner, R. M., additional, van Andel, T. R., additional, Ulian, T., additional, Antonelli, A., additional, and Willis, K. J., additional

Published

2024

8. Living at the limit in the Pyrenees: Peripheral and endemic plants are rare but underrepresented in protection lists

Author

Comunidad de Trabajo de los Pirineos, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Pironon, S. [0000-0002-8937-7626], Gómez García, Daniel [0000-0002-9738-8720], García González, María Begoña [0000-0003-4231-6006], Pironon, S., Gómez García, Daniel, Font, Xavier, García González, María Begoña, Comunidad de Trabajo de los Pirineos, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Pironon, S. [0000-0002-8937-7626], Gómez García, Daniel [0000-0002-9738-8720], García González, María Begoña [0000-0003-4231-6006], Pironon, S., Gómez García, Daniel, Font, Xavier, and García González, María Begoña

Abstract

[Aim] Mountains shelter high biological diversity and constitute both important barriers and confluence areas for species. They often contain species whose populations occur at their range limit (peripheral species), which according to the “Centre-Periphery” hypothesis (CPH) are expected to occur in marginal environments, exhibit low abundance and consequently high vulnerability. Our study investigates this hypothesis for the flora of the Pyrenees, a biogeographical crossroads containing a large proportion of the total European plant diversity., [Location] Pyrenees., [Methods] We determined whether more than 2600 native plant species were endemic to the Pyrenees or found at the centre or periphery of their whole distribution range within the mountain chain. We then compared the ecological preferences, local and regional abundance, and conservation status among central, peripheral and endemic species., [Results] A quarter of the flora was found at its geographic range limit within the Pyrenees. Endemic and peripheral species were more likely to be soil specialists in alpine grasslands and rocks, and exhibited smaller regional ranges than central species, but their local abundance did not tend to differ. Peripheral species at their southern range edge were more widespread regionally than at their northern range edge. Peripheral taxa were more prevalent in the Pyrenean red list of threatened species (55%) compared to national and regional protection lists (40% and 31%, respectively)., [Main conclusions] Peripheral species contribute substantially to the diversity of the Pyrenean flora. They follow the predictions of the CPH given their occurrence in scarce habitats, their low regional abundance and their high vulnerability according to the Pyrenean red list, although they tend to show similar local abundances as other species and are infrequent in protection lists. Integrative and cross-border assessments of the ecology and rarity of mountain floras provide better estimates of their vulnerability and ensure more efficient prioritization of their conservation.

Published

2022

9. Towards an action plan for characterizing food plant diversity

Author

Pironon, S., primary, Cantwell-Jones, A., additional, Forest, F., additional, Ball, J., additional, Diazgranados, M., additional, Douglas, R., additional, Hawkins, J., additional, Howes, M.-J. R., additional, Ulian, T., additional, Vaitla, B., additional, and Collar, D., additional

Published

2022

10. Living at the limit in a major biogeographical crossroad. The flora of the Pyrenean Mountains

Author

European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Pironon, S. [0000-0002-8937-7626], Gómez García, Daniel [0000-0002-9738-8720], Font, Xavier [0000-0002-7253-8905], García González, María Begoña [0000-0003-4231-6006], García González, María Begoña [mariab@ipe.csic.es], García González, María Begoña, Gómez García, Daniel, Font, Xavier, Pironon, S., European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Pironon, S. [0000-0002-8937-7626], Gómez García, Daniel [0000-0002-9738-8720], Font, Xavier [0000-0002-7253-8905], García González, María Begoña [0000-0003-4231-6006], García González, María Begoña [mariab@ipe.csic.es], García González, María Begoña, Gómez García, Daniel, Font, Xavier, and Pironon, S.

Abstract

Mountains shelter high biological diversity and constitute important barriers for species distributions. They often contain sets of species whose populations occur at their range limit (peripheral species), which according to the “Centre-Periphery” hypothesis are expected to perform worse and be more vulnerable than in central positions. Our study investigates this hypothesis by examining the potential vulnerability (abundance and ecological characteristics) of the flora of the Pyrenees, a major biogeographical crossroad containing a large proportion of the total European plant diversity. We also assess the contribution of peripheral plants in lists of conservation. We compared regional area of occupancy, local abundance, elevation, habitat and soil type preferences, of more than 2,600 central, peripheral and endemic native vascular plants of the Pyrenees mountains. Their conservation status was also assessed at different spatial scales. A quarter of Pyrenean species are at their distributional limit. Like endemics, peripherals have lower continental and regional occupancy than central ones, but their local abundance does not differ significantly. Endemics and peripherals are also more likely to be soil specialists at high elevation, mainly in (sub)alpine grasslands and rocky areas. Although occurring in different ecological conditions, peripheral species at their rear-edge (mainly Boreoalpine and Eurosiberian) tend to be more widespread regionally but equally abundant locally than leading- edge species (mainly Mediterranean). Peripheral taxa constitute a large portion of Pyrenean species protected at different geographic or administrative scales (31-56%), of highest importance in the Pyrenean red list. Peripheral species show contrasting ecology at the leading- and rear-edge, contribute substantially to the high plant diversity of the Pyrenean biogeographical crossroad and to the lists of priority species for conservation. Integrative biogeographical assessments of

Published

2021

11. Modelling potential range expansion of an underutilised food security crop in Sub-Saharan Africa

Author

Koch, O, primary, Mengesha, W A, additional, Pironon, S, additional, Pagella, T, additional, Ondo, I, additional, Rosa, I, additional, Wilkin, P, additional, and Borrell, J S, additional

Published

2021

12. Modelling potential range expansion of an underutilised food security crop in Sub-Saharan Africa

Author

Koch, O., primary, Mengesha, W.A., additional, Pironon, S., additional, Pagella, T., additional, Ondo, I., additional, Rosa, I., additional, Wilkin, P., additional, and Borrell, J.S., additional

Published

2021

13. State of the World’s Plants and Fungi

Author

Antonelli, A., Smith, R. J., Fry, C., Simmonds, Monique S. J., Kersey, Paul J., Pritchard, H. W., Abbo, M. S., Acedo, C., Adams, J., Ainsworth A.M., Allkin B., Annecke W, Bachman S P, Bacon, K., Bárrios, S., Barstow, C., Battison, A., Bell, E., Bensusan, K., Bidartondo, M. I., Blackhall-Miles, R. J., Borrell, J. S., Brearley, F. Q., Breman, E., Brewer, R. F. A., Brodie, J., Cámara-Leret, R., Campostrini Forzza, R., Cannon, P., Carine, M., Carretero, J., Cavagnaro, T. R., E Cazar, M., Chapman, T., Cheek, M., Clubbe, C., Cockel, C., Collemare, J., Cooper, A., Copeland, A. I., Corcoran, M., Couch, C., Cowell, C., Crous, P., Da Silva, M., Dalle, G., Das, D., David, J. C., Davies, L., Davies, N., Canha, M. N., Lirio, E. J., Demissew, S., Diazgranados, M., Dickie, J., Dines, T., Douglas, B., Dröge, G., Dulloo, M. E., Fang, R., Farlow, A., Farrar, K., Fay, M. F., Felix, J., Forest, F., Forrest, L. L., Fulcher, T., Gafforov, Y., Gardiner, L. M., Gâteblé, G., Gaya, E., Benoit Geslin, Gonçalves, S. C., Gore, C. J. N., Govaerts, R., Gowda, B., Grace, O. M., Grall, A., Haelewaters, D., Halley, J. M., Hamilton, M. A., Hazra, A., Heller, T., Hollingsworth, P. M., Holstein, N., Howes, M. -J R., Hughes, M., Hunter, D., Hutchinson, N., Hyde, K., Iganci, J., Jones, M., Kelly, L. J., Kirk, P., Koch, H., Krisai-Greilhuber, I., Lall, N., Langat, M. K., Leaman, D. J., Leão, T. C., Lee, M. A., Leitch, I. J., Leon, C., Lettice, E., Lewis, G. P., Li, L., Lindon, H., Liu, J. S., Liu, U., Llewellyn, T., Looney, B., Lovett, J. C., Łukasz Łuczaj, Lulekal, E., Maggassouba, S., Valéry Malécot, Martin, C., Masera, O. R., Mattana, E., Maxted, N., Mba, C., Mcginn, K. J., Metheringham, C., Miles, S., Miller, J., Milliken, W., Moat, J., Moore, P. G. P., Morim, M. P., Mueller, G. M., Muminjanov, H., Negrão, R., Nic Lughadha, E., Nicolson, N., Niskanen, T., Nono Womdim, R., Noorani, A., Obreza, M., O’donnell, K., O’hanlon, R., M Onana, J., Ondo, I., Padulosi, S., Paton, A., Pearce, T., Pérez Escobar, O. A., Pieroni, A., Pironon, S., Prescott, T. A. K., Qi, Y. D., Qin, H., Quave, C. L., Rajaovelona, L., Razanajatovo, H., Reich, P. B., Rianawati, E., Rich, T. C. G., Richards, S. L., Rivers, M. C., Ross, A., Rumsey, F., Ryan, M., Ryan, P., Sagala, S., Sanchez, M. D., Sharrock, S., Shrestha, K. K., Sim, J., Sirakaya, A., Sjöman, H., Smidt, E. C., Smith, D., Smith, P., Smith, S. R., Sofo, A., Spence, N., Stanworth, A., Stara, K., Stevenson, P. C., Stroh, P., Suz, L. M., Tambam, B. B., Tatsis, E. C., Taylor, I., Thiers, B., Thormann, I., Trivedi, C., Twilley, D., Twyford, A. D., Ulian, T., Utteridge, T., Vaglica, V., Vásquez-Londoño, C., Victor, J., Viruel, J., Walker, B. E., Walker, K., Walsh, A., Way, M., Wilbraham, J., Wilkin, P., Wilkinson, T., Williams, C., Winterton, D., Wong, K. M., Woodfield-Pascoe, N., Woodman, J., Wyatt, L., Wynberg, R., Zhang, B. G., Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), Royal Botanic Gardens (Kew), and Sfumato Foundation

Subjects

[SDE.BE]Environmental Sciences/Biodiversity and Ecology, [SDE.ES]Environmental Sciences/Environmental and Society, ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2020

14. Areas of global importance for conserving terrestrial biodiversity, carbon and water

Author

Jung, M., Arnell, A., de Lamo, X., García-Rangel, S., Lewis, M., Mark, J., Merow, C., Miles, L., Ondo, I., Pironon, S., Ravilious, C., Rivers, M., Shchepashchenko, D., Tallowin, O., van Soesbergen, A., Govaerts, R., Boyle, B.L., Enquist, B.J., Feng, X., Gallagher, R., Maitner, B., Meiri, S., Mulligan, M., Ofer, G., Roll, U., Hanson, J.O., Jetz, W., Di Marco, M., McGowan, J., Rinnan, D.S., Sachs, J.D., Lesiv, M., Adams, V.M., Andrew, S.C., Burger, J.R., Hannah, L., Marquet, P.A., McCarthy, J.K., Morueta-Holme, N., Newman, E.A., Park, D.S., Roehrdanz, P.R., Svenning, J.-C., Violle, C., Wieringa, J.J., Wynne, G., Fritz, S., Strassburg, B.B. ., Obersteiner, M., Kapos, V., Burgess, N., Schmidt-Traub, G., Visconti, P., Jung, M., Arnell, A., de Lamo, X., García-Rangel, S., Lewis, M., Mark, J., Merow, C., Miles, L., Ondo, I., Pironon, S., Ravilious, C., Rivers, M., Shchepashchenko, D., Tallowin, O., van Soesbergen, A., Govaerts, R., Boyle, B.L., Enquist, B.J., Feng, X., Gallagher, R., Maitner, B., Meiri, S., Mulligan, M., Ofer, G., Roll, U., Hanson, J.O., Jetz, W., Di Marco, M., McGowan, J., Rinnan, D.S., Sachs, J.D., Lesiv, M., Adams, V.M., Andrew, S.C., Burger, J.R., Hannah, L., Marquet, P.A., McCarthy, J.K., Morueta-Holme, N., Newman, E.A., Park, D.S., Roehrdanz, P.R., Svenning, J.-C., Violle, C., Wieringa, J.J., Wynne, G., Fritz, S., Strassburg, B.B. ., Obersteiner, M., Kapos, V., Burgess, N., Schmidt-Traub, G., and Visconti, P.

Abstract

To meet the ambitious objectives of biodiversity and climate conventions, the international community requires clarity on how these objectives can be operationalized spatially and how multiple targets can be pursued concurrently. To support goal setting and the implementation of international strategies and action plans, spatial guidance is needed to identify which land areas have the potential to generate the greatest synergies between conserving biodiversity and nature’s contributions to people. Here we present results from a joint optimization that minimizes the number of threatened species, maximizes carbon retention and water quality regulation, and ranks terrestrial conservation priorities globally. We found that selecting the top-ranked 30% and 50% of terrestrial land area would conserve respectively 60.7% and 85.3% of the estimated total carbon stock and 66% and 89.8% of all clean water, in addition to meeting conservation targets for 57.9% and 79% of all species considered. Our data and prioritization further suggest that adequately conserving all species considered (vertebrates and plants) would require giving conservation attention to ~70% of the terrestrial land surface. If priority was given to biodiversity only, managing 30% of optimally located land area for conservation may be sufficient to meet conservation targets for 81.3% of the terrestrial plant and vertebrate species considered. Our results provide a global assessment of where land could be optimally managed for conservation. We discuss how such a spatial prioritization framework can support the implementation of the biodiversity and climate conventions.

Published

2021

15. NatureMap Priority maps to Areas of global importance for conserving terrestrial biodiversity, carbon, and water

Author

Jung, M., Arnell, A., de Lamo, X., Garcia-Rangel, S., Lewis, M., Mark, J., Merow, C., Miles, L., Ondo, I., Pironon, S., Ravilious, C., Rivers, M., Shchepashchenko, D., Tallowin, O., van Soesbergen, A., Govaerts, R., Boyle, B., Enquist, B., Feng, X., Gallagher, R., Maitner, B., Meiri, S., Mulligan, M., Ofer, G., Roll, U., Hanson, J., Jetz, W., Marco, M., McGowan, J., Rinnan, D., Sachs, J., Lesiv, M., Adams, V., Andrew, S., Burger, J., Hannah, L., Marquet, P., McCarthy, J., Morueta-Holme, N., Newman, E., Park, D., Roehrdanz, P., Svenning, J.-C., Violle, C., Wieringa, I., Wynne, G., Fritz, S., Strassburg, B., Obersteiner, M., Kapos, V., Burgess, N., Schmidt-Traub, G., Visconti, P., Jung, M., Arnell, A., de Lamo, X., Garcia-Rangel, S., Lewis, M., Mark, J., Merow, C., Miles, L., Ondo, I., Pironon, S., Ravilious, C., Rivers, M., Shchepashchenko, D., Tallowin, O., van Soesbergen, A., Govaerts, R., Boyle, B., Enquist, B., Feng, X., Gallagher, R., Maitner, B., Meiri, S., Mulligan, M., Ofer, G., Roll, U., Hanson, J., Jetz, W., Marco, M., McGowan, J., Rinnan, D., Sachs, J., Lesiv, M., Adams, V., Andrew, S., Burger, J., Hannah, L., Marquet, P., McCarthy, J., Morueta-Holme, N., Newman, E., Park, D., Roehrdanz, P., Svenning, J.-C., Violle, C., Wieringa, I., Wynne, G., Fritz, S., Strassburg, B., Obersteiner, M., Kapos, V., Burgess, N., Schmidt-Traub, G., and Visconti, P.

Abstract

This data repository contains the results of the NatureMap ( naturemap.earth/) conservation prioritization effort. The maps were created by jointly optimizing biodiversity and NCPs such as carbon and/or water. Maps are supplied at both 10km and 50km resolution and all maps that aim to find priority areas for all species considered in the analysis, utilize a series of representative sets. The ranks for each layer are area-specific and can be used to extract summary statistics by simple subsetting. For example, to obtain the top 30% of land area for biodiversity and carbon, one needs to create a mask of all areas lower than a value of 30 from the respective ranked layers. For convenience two files are supplied that contain the fraction of land area per grid cell times 1000. Multiplying those with the cell area (100km2, respectively 2500km2) gives the exact amount of land area in a given grid cell. These are labelled "globalgrid_mollweide_**km.tif " can be used to create masks for the priority maps. The geographic projection is World Mollweide Equal Area projection.

Published

2021

16. Areas of global importance for terrestrial biodiversity, carbon, and water

Author

Jung, M., Arnell, A., de Lamo, X., García-Rangel, S., Lewis, M., Mark, J., Merow, C., Miles, L., Ondo, I., Pironon, S., Ravilious, C., Rivers, M., Shchepashchenko, D., Tallowin, O., van Soesbergen, A., Govaerts, R., Boyle, B.L., Enquist, B.J., Feng, X., Gallagher, R.V., Maitner, B., Meiri, S., Mulligan, M., Ofer, G., Hanson, J.O., Jetz, W., Di Marco, M., McGowan, J., Rinnan, D., Sachs, J.D., Lesiv, M., Adams, V., Andrew, S.C., Burger, J.R., Hannah, L., Marquet, P.A., McCarthy, J.K., Morueta-Holme, N., Newman, E.A., Park, D.S., Roehrdanz, P.R., Svenning, J.-C., Violle, C., Wieringa, J.J., Wynne, G., Fritz, S., Strassburg, B.B.N., Obersteiner, M., Kapos, V., Burgess, N., Schmidt-Traub, G., Visconti, P., Jung, M., Arnell, A., de Lamo, X., García-Rangel, S., Lewis, M., Mark, J., Merow, C., Miles, L., Ondo, I., Pironon, S., Ravilious, C., Rivers, M., Shchepashchenko, D., Tallowin, O., van Soesbergen, A., Govaerts, R., Boyle, B.L., Enquist, B.J., Feng, X., Gallagher, R.V., Maitner, B., Meiri, S., Mulligan, M., Ofer, G., Hanson, J.O., Jetz, W., Di Marco, M., McGowan, J., Rinnan, D., Sachs, J.D., Lesiv, M., Adams, V., Andrew, S.C., Burger, J.R., Hannah, L., Marquet, P.A., McCarthy, J.K., Morueta-Holme, N., Newman, E.A., Park, D.S., Roehrdanz, P.R., Svenning, J.-C., Violle, C., Wieringa, J.J., Wynne, G., Fritz, S., Strassburg, B.B.N., Obersteiner, M., Kapos, V., Burgess, N., Schmidt-Traub, G., and Visconti, P.

Abstract

To meet the ambitious objectives of biodiversity and climate conventions, countries and the international community require clarity on how these objectives can be operationalized spatially, and multiple targets be pursued concurrently1. To support governments and political conventions, spatial guidance is needed to identify which areas should be managed for conservation to generate the greatest synergies between biodiversity and nature’s contribution to people (NCP). Here we present results from a joint optimization that maximizes improvements in species conservation status, carbon retention and water provisioning and rank terrestrial conservation priorities globally. We found that, selecting the top-ranked 30% (respectively 50%) of areas would conserve 62.4% (86.8%) of the estimated total carbon stock and 67.8% (90.7%) of all clean water provisioning, in addition to improving the conservation status for 69.7% (83.8%) of all species considered. If priority was given to biodiversity only, managing 30% of optimally located land area for conservation may be sufficient to improve the conservation status of 86.3% of plant and vertebrate species on Earth. Our results provide a global baseline on where land could be managed for conservation. We discuss how such a spatial prioritisation framework can support the implementation of the biodiversity and climate conventions.

Published

2020

17. Response.

Author

Pironon, S., Ondo, I., Diazgranados, M., Allkin, R., Baquero, A. C., Cámara-Leret, R., Canteiro, C., Dennehy-Carr, Z., Govaerts, R., Hargreaves, S., Hudson, A. J., Lemmens, R., Milliken, W., Nesbitt, M., Patmore, K., Schmelzer, G., Turner, R. M., van Andel, T. R., Ulian, T., and Antonelli, A.

Subjects

*TRADITIONAL knowledge, *ETHNOBIOLOGY, *INDIGENOUS peoples, *AGRICULTURE, *HUMAN migrations

Abstract

The article focuses on the need to address the traceability of plant-use data and ensure proper recognition of Indigenous Peoples and local communities' knowledge in Western science.

Published

2024

18. Addressing common pitfalls does not provide more support to geographical and ecological abundant-centre hypotheses

Author

Santini, L., Pironon, S., Maiorano, L., Thuiller, Wilfried, Santini, L., Pironon, S., Maiorano, L., and Thuiller, Wilfried

Abstract

Contains fulltext : 202559.pdf (publisher's version ) (Open Access)

Published

2019

19. Addressing common pitfalls does not provide more support to geographical and ecological abundant‐centre hypotheses

Author

Santini, L., primary, Pironon, S., additional, Maiorano, L., additional, and Thuiller, W., additional

Published

2018

20. The European functional tree of bird life in face of global change

Author

Thuiller, W, Pironon, S, Psomas, A, Barbet-Massin, M, Jiguet, F, Lavergne S, Pearman, P.B, Renaud, J, Zupan, L. and Zimmermann, N.E, Thuiller, W., Pironon, S., Psomas, A., Barbet-Massin, M., Jiguet, F., Lavergne S., Pearman, P.B., Renaud, J., Zupan, L., and Zimmermann, N.E

Published

2014

21. Do geographic, climatic or historical ranges differentiate the performance of central versus peripheral populations?

Author

Pironon, S., Villellas, Jesús, Morris, W.F., Doak, Daniel F., and García González, María Begoña

Subjects

population performance, plant demography, Latitude, Last Glacial Maximum, Species distribution models, genetic diversity, central–marginal hypothesis, Climatic niches, Abundant-centre model

Abstract

Aim: The 'centre-periphery hypothesis' (CPH) predicts that species performance (genetics, physiology, morphology, demography) will decline gradually from the centre towards the periphery of the geographic range. This hypothesis has been subjected to continuous debate since the 1980s, essentially because empirical studies have shown contrasting patterns. Moreover, it has been proposed that species performance might not be higher at the geographic range centre but rather at the environmental optimum or at sites presenting greater environmental stability in time. In this paper we re-evaluate the CPH by disentangling the effects of geographic, climatic and historical centrality/marginality on the demography of three widely distributed plant species and the genetic diversity of one of them. Location: Europe and North America. Methods: Based on a species distribution modelling approach, we test whether demographic parameters (vital rates, stochastic population growth rates, density) of three plant species of contrasting life-forms, and the genetic diversity of one of them, are higher at their geographic range centres, climatic optima or projected glacial refugia. Results: While geographic, climatic and historical centre-periphery gradients are often not concordant, overall, none of them explain well the distribution of species demographic performance, whereas genetic diversity responds positively only to a historical centrality, related to post-glacial range dynamics. Main conclusions: To our knowledge, this is the first assessment of the response of species performance to three centrality gradients, considering all the components of different species life cycles and genetic diversity information across continental distributions. Our results are inconsistent with the idea that geographically, climatically or historically marginal populations generally perform worse than central ones. We particularly emphasize the importance of adopting an interdisciplinary approach in order to understand the relative effects of contemporary versus historical and geographic versus ecological factors on the distribution of species performance. © 2014 John Wiley & Sons Ltd., We are grateful to Arndt Hampe and three anonymous referees for their constructive comments on the manuscript. Funding was provided by the Spanish Ministry of Science and Technology through a doctoral grant (FPI, BES-2011-045169), and the project CAMBIO, CGL2010-21642. D.F.D. and W.F.M. received funding from the US National Science Foundation. We thank GBIF, Anthos, WorldClim and the Palaeoclimate Modelling Intercomparison Project for making their data freely available online. We also thank R. Braza for French data, M. Pata for helping with statistical analysis, I. Pardo and W. Thuiller for insightful discussions, P. Errea and R. Drummond for helping with the treatment of geographic data, as well as M. Maza for providing pictures of the plants. Finally, numerous people helped to collect demographic and genetic data.

Published

2015

22. Balance between climate change and bioenergy: conservation implications for European birds

Author

Meller, L, Thuiller, W, Pironon, S, Barbet-Massin, M, Hof, A, and Cabeza, M.

Published

2014

23. Primeras jornadas Iperinas: presentación de nuevas líneas de investigación del Instituto Pirenaico de Ecología (CSIC)

Author

Pardo, I., Aranbarri, J., Barreiro, F., Bravo, P. A., Chaparro, H. A., Comín, F., Corriá, R., Español, C., Felipe-Lucía, M., Frugone, M., García-García, M., García-Prieto, E., Gil-Romera, G., Gimeno, I., Lasheras, L., Moreno, A., Palacio, S., Pérez-Sanz, A., Pironon, S., Pueyo, Y., Reig, F., Saiz, H., Sangüesa-Barreda, G., Tarrats, P., Zabalza, J., and Revuelto, J.

Subjects

CSIC, scientific collaboration, Instituto Pirenaico de Ecología, science dissemination, colaboración científica, transferencia conocimiento, Pyrenean Institute of Ecology, new research lines, knowledge transfer, divulgación científica, nuevas líneas de investigación

Abstract

In December 2012, the first Jornadas IPErinas took place at the Pyrenean Institute of Ecology (CSIC). The aim of this meeting was to show many of the new research topics that nowadays are being developed in the Institute. This workshop grew out of the need to disseminate the main new research lines developed at the center, as a fundamental part of scientific communication and knowledge transfer to society. In this paper, we briefly review the topics presented in the first meeting Jornadas IPErinas, summarizing the oral contributions., En diciembre de 2012, se celebraron las primeras Jornadas IPErinas, reunión que permitió compartir al personal del Instituto Pirenaico de Ecología (CSIC), muchos de los trabajos de investigación que actualmente se están llevando a cabo por los distintos grupos del centro. Estas Jornadas surgieron de la necesidad de compartir y difundir los principales objetivos y resultados más relevantes de nuevas líneas de investigación desarrolladas actualmente en el centro, como parte fundamental de la comunicación científica y transferencia de conocimiento a la sociedad. Bajo estas líneas, se presenta una reseña de la las primeras Jornadas IPErinas, a través de un breve resumen de las charlas presentadas.

Published

2013

24. Monitorización de la Biodiversidad vegetal y sus distintos componentes en un parque nacional de montaña

Author

García González, María Begoña, Pardo Guereño, Iker, Camarero, Jesús Julio, Gómez García, Daniel, García-González, Ricardo, Pironon, S., Aldezábal, A., Olesen, Jens M., Roquet, Cristina, Lavergne, Sébastien, and Errea, M. P.

Abstract

[EN] National Parks, and mountain parks in particular, are biodiversity reservoirs, and constitute very suitable areas for monitoring changes in species abundance, richness, and community composition. Our project has been carried out in the Ordesa and Monte Perdido National Park, a topographically complex area that shelters about 1400 vascular plants belonging to biogeographically contrasted groups: from Mediterranean to boreoalpine. Despite part of the Park has been protected for about 100 years, it is not safe from global factors affecting other mountains, like climate warming and shifts of land-use. This project had two main objectives: 1) to characterize the spatial diversity of the Park from different points of view besides classical richness, and 2) to describe the dynamics of plant richness and community structure in the richest areas of the Park: alpine pastures, and their limit with the subalpine forest. We first analysed the distribution of more than 44.000 records of vascular plants, georeferenced at a 1 km 2 scale, and estimated diversity using different approaches: species richness, phylogenetic diversity, and abundance of vulnerable plants. The most representative and distinctive areas were also identified, considering the whole flora of the National Park. Richness was also correlated to different biotic and abiotic variables in the Park. Sampling effort was included in that correlation to avoid bias due to the number of prospections at each place. It was estimated from a new model we generated (FIDEGAM), and served to correct for the uncertainty of richness estimations. FIDEGAM can be used for any other database, in order to correct for bias in biodiversity analysis. The second objective was undertaken by relocating and resurveying the same places studied 10 (ecotone Pinus uncinatapasture) and 20 years ago (6 pastures located between 1900-2750 m.a.s.l.). At the ecotone, a slight increase of the forest has been detected, with no consequences on the structure and composition of the herbaceous layer yet. In the pastures, a slight increase of graminoids was also recorded. Overall, the project served to identify the most interesting areas of plant diversity from different points of view (not always overlapped), and establish permanent plots for monitoring the impact of global change on mountain biodiversity., Queremos mostrar nuestro agradecimiento al Parque Nacional de Ordesa y Monte Perdido, y especialmente a Elena Villagrasa y Ramón Antor por facilitar el trabajo en todo momento. A Pedro Sánchez, María Jarne, Jesús Villellas, Gabriel Sangüesa y Marc Talavera por su ayuda en la toma de datos en campo durante el desarrollo del proyecto. Financiación recibida a través del Organismo Autónomo Parques Nacionales (Referencia del proyecto: 018/2008).

Published

2012

25. Monitorización de la biodiversidad vegetal y sus distintos componentes en un parque nacional de montaña

Author

García, Maria Begoña, Pardo, I., Pata, M. P., Camarero, J. J., García-González, R., Errea, P., Gómez, D., Pironon, S., Aldezábal, A., Olesen, Jens M., Roquet, C., Lavergne, S., Ramírez, L., and Asensio, B.

Published

2012

26. Range-wide variation in the ecological niche and floral polymorphism of the western mediterranean geophyte narcissus dubius Gouan

Author

Papuga, Guillaume, Gauthier, Perrine, Ramos, José, Pons, V., Pironon, S., Farris, Emmanuele, Thompson, John D., Papuga, Guillaume, Gauthier, Perrine, Ramos, José, Pons, V., Pironon, S., Farris, Emmanuele, and Thompson, John D.

Abstract

Premise of research. Comparative studies of variation in the ecology and genetics of natural plant populations located at the limits and in the center of a species range provide fundamental insights into the historical formation of species distribution patterns. Methodology. In this study, we quantify variation in the ecological niche and the expression of a floral polymorphism across the range of the Mediterranean geophyte Narcissus dubius Gouan. An exhaustive data set of known locations was compiled to distinguish groups of geographically central and peripheral populations in both Spain and France. These occur across a double climatic gradient. First, there is a gradient from a hot and dry Mediterranean climatic regime in eastern Spain to a milder Mediterranean climatic regime in southern France (lower maximum temperature and shorter summer drought). Second, there is a shift to a more continental climate in peripheral populations in inland Spain. We also modeled the current climatic niche and produced historical projections of potential glacial refugia for this species. Pivotal results. Peripheral populations showed consistent patterns of ecological niche differences with a less rupicolous ecology, more bare soil, and a higher cover of annual species. The ecological niche was more variable among peripheral populations than among central populations. Peripheral populations showed a repeated pattern of loss of stigma-height polymorphism and floral traits indicative of a reproductive strategy based on within-morph mating (probably selfing to assure seed set). Climate models indicate that contemporary peripheral populations (particularly in Spain) occur in areas that were least likely to have served as glacial refugia. Conclusions. Historical isolation and recolonization may have shaped contemporary patterns of ecological niche and reproductive trait variation among central and peripheral populations. © 2015 by The University of Chicago. All rights reserved.

Published

2015

27. Balance between climate change mitigation benefits and land use impacts of bioenergy: Conservation implications for European birds

Author

Meller, L., Thuiller, Wilfried, Pironon, S., Barbet-Massin, Morgane, Hoff, Andries, Cabeza, Mar, Meller, L., Thuiller, Wilfried, Pironon, S., Barbet-Massin, Morgane, Hoff, Andries, and Cabeza, Mar

Abstract

Both climate change and habitat modification exert serious pressure on biodiversity. Although climate change mitigation has been identified as an important strategy for biodiversity conservation, bioenergy remains a controversial mitigation action due to its potential negative ecological and socio-economic impacts which arise through habitat modification by land use change. While the debate continues, the separate or simultaneous impacts of both climate change and bioenergy on biodiversity have not yet been compared. We assess projected range shifts of 156 European bird species by 2050 under two alternative climate change trajectories: a baseline scenario, where the global mean temperature increases by 4 °C by the end of the century, and a 2 degrees scenario, where global concerted effort limits the temperature increase to below 2 °C. For the latter scenario, we also quantify the pressure exerted by increased cultivation of energy biomass as modelled by IMAGE2.4, an integrated land use model. The global bioenergy use in this scenario is in the lower end of the range of previously estimated sustainable potential. Under the assumptions of these scenarios, we find that the magnitude of range shifts due to climate change is far greater than the impact of land conversion to woody bioenergy plantations within the European Union, and that mitigation of climate change reduces the exposure experienced by species. However, we identified potential for local conservation conflict between priority areas for conservation and bioenergy production. These conflicts must be addressed by strict bioenergy sustainability criteria that acknowledge biodiversity conservation needs beyond existing protected areas and apply also to biomass imported from outside the European Union. © 2014 John Wiley & Sons Ltd.

Published

2015

28. The European functional tree of bird life in the face of global change

Author

Thuiller, Wilfried, Pironon, S., Psomas, Achilleas, Barbet-Massin, Morgane, Jiguet, Frédéric, Lavergne, Sébastien, Pearman, Peter B., Renaud, Julien, Zupan, Laure, Zimmermann, Niklaus E., Thuiller, Wilfried, Pironon, S., Psomas, Achilleas, Barbet-Massin, Morgane, Jiguet, Frédéric, Lavergne, Sébastien, Pearman, Peter B., Renaud, Julien, Zupan, Laure, and Zimmermann, Niklaus E.

Abstract

Despite the recognized joint impact of climate and land cover change on facets of biodiversity and their associated functions, risk assessments have primarily evaluated impacts on species ranges and richness. Here we quantify the sensitivity of the functional structure of European avian assemblages to changes in both regional climate and land cover. We combine species range forecasts with functional-trait information. We show that species sensitivity to environmental change is randomly distributed across the functional tree of the European avifauna and that functionally unique species are not disproportionately threatened by 2080. However, projected species range changes will modify the mean species richness and functional diversity of bird diets and feeding behaviours. This will unequally affect the spatial structure of functional diversity, leading to homogenization across Europe. Therefore, global changes may alter the functional structure of species assemblages in the future in ways that need to be accounted for in conservation planning.

Published

2014

29. Primeras jornadas Iperinas: presentación de nuevas líneas de investigación del Instituto Pirenaico de Ecología (CSIC)

Author

Pardo Guereño, Iker, Aranbarri, J., Barreiro-Lostres, Fernando, Bravo Domínguez, Pedro, Mendivelso, Hooz A., Comín, Francisco A., Corría, R., Español Latorre, Cecilia, Felipe Lucía, María, Frugone, M., García García, Mercedes, García-Prieto, E., Gil-Romera, Graciela, Gimeno, Irene, Lasheras Álvarez, Laura, Moreno Caballud, Ana, Palacio, Sara, Pérez-Sanz, Ana, Pironon, S., Pueyo, Yolanda, Reig-Gracia, Fergus, Sáiz Bustamante, Hugo, Sangüesa-Barreda, G., Tarrats, P., Zabalza-Martínez, Javier, Revuelto, Jesús, Pardo Guereño, Iker, Aranbarri, J., Barreiro-Lostres, Fernando, Bravo Domínguez, Pedro, Mendivelso, Hooz A., Comín, Francisco A., Corría, R., Español Latorre, Cecilia, Felipe Lucía, María, Frugone, M., García García, Mercedes, García-Prieto, E., Gil-Romera, Graciela, Gimeno, Irene, Lasheras Álvarez, Laura, Moreno Caballud, Ana, Palacio, Sara, Pérez-Sanz, Ana, Pironon, S., Pueyo, Yolanda, Reig-Gracia, Fergus, Sáiz Bustamante, Hugo, Sangüesa-Barreda, G., Tarrats, P., Zabalza-Martínez, Javier, and Revuelto, Jesús

Abstract

[ES] En diciembre de 2012, se celebraron las primeras Jornadas IPErinas, reunión que permitió compartir al personal del Instituto Pirenaico de Ecología (CSIC), muchos de los trabajos de investigación que actualmente se están llevando a cabo por los distintos grupos del centro. Estas Jornadas surgieron de la necesidad de compartir y difundir los principales objetivos y resultados más relevantes de nuevas líneas de investigación desarrolladas actualmente en el centro, como parte fundamental de la comunicación científica y transferencia de conocimiento a la sociedad. Bajo estas líneas, se presenta una reseña de la las primeras Jornadas IPErinas, a través de un breve resumen de las charlas presentadas., [EN] In December 2012, the first Jornadas IPErinas took place at the Pyrenean Institute of Ecology (CSIC). The aim of this meeting was to show many of the new research topics that nowadays are being developed in the Institute. This workshop grew out of the need to disseminate the main new research lines developed at the center, as a fundamental part of scientific communication and knowledge transfer to society. In this paper, we briefly review the topics presented in the first meeting Jornadas IPErinas, summarizing the oral contributions.

Published

2013

30. Plant diversity darkspots for global collection priorities.

Author

Ondo I, Dhanjal-Adams KL, Pironon S, Silvestro D, Colli-Silva M, Deklerck V, Grace OM, Monro AK, Nicolson N, Walker B, and Antonelli A

Subjects

Internationality, Geography, Conservation of Natural Resources methods, Biodiversity, Plants

Abstract

More than 15% of all vascular plant species may remain scientifically undescribed, and many of the > 350 000 described species have no or few geographic records documenting their distribution. Identifying and understanding taxonomic and geographic knowledge shortfalls is key to prioritising future collection and conservation efforts. Using extensive data for 343 523 vascular plant species and time-to-event analyses, we conducted multiple tests related to plant taxonomic and geographic data shortfalls, and identified 33 global diversity darkspots (those 'botanical countries' predicted to contain most undescribed and not yet recorded species). We defined priority regions for future collection according to several socio-economic and environmental scenarios. Most plant diversity darkspots are found within global biodiversity hotspots, with the exception of New Guinea. We identify Colombia, Myanmar, New Guinea, Peru, Philippines and Turkey as global collection priorities under all environmental and socio-economic conditions considered. Our study provides a flexible framework to help accelerate the documentation of global plant diversity for the implementation of conservation actions. As digitisation of the world's herbaria progresses, collection and conservation priorities may soon be identifiable at finer scales., (© 2024 The Author(s). New Phytologist © 2024 New Phytologist Foundation.)

Published

2024

31. Genome size is positively correlated with extinction risk in herbaceous angiosperms.

Author

Soto Gomez M, Brown MJM, Pironon S, Bureš P, Verde Arregoitia LD, Veselý P, Elliott TL, Zedek F, Pellicer J, Forest F, Nic Lughadha E, and Leitch IJ

Subjects

Genome, Plant, Climate, Magnoliopsida genetics, Magnoliopsida physiology, Extinction, Biological, Genome Size, Phylogeny

Abstract

Angiosperms with large genomes experience nuclear-, cellular-, and organism-level constraints that may limit their phenotypic plasticity and ecological niche, which could increase their risk of extinction. Therefore, we test the hypotheses that large-genomed species are more likely to be threatened with extinction than those with small genomes, and that the effect of genome size varies across three selected covariates: life form, endemism, and climatic zone. We collated genome size and extinction risk information for a representative sample of angiosperms comprising 3250 species, which we analyzed alongside life form, endemism, and climatic zone variables using a phylogenetic framework. Genome size is positively correlated with extinction risk, a pattern driven by a signal in herbaceous but not woody species, regardless of climate and endemism. The influence of genome size is stronger in endemic herbaceous species, but is relatively homogenous across different climates. Beyond its indirect link via endemism and climate, genome size is associated with extinction risk directly and significantly. Genome size may serve as a proxy for difficult-to-measure parameters associated with resilience and vulnerability in herbaceous angiosperms. Therefore, it merits further exploration as a useful biological attribute for understanding intrinsic extinction risk and augmenting plant conservation efforts., (© 2024 The Author(s). New Phytologist © 2024 New Phytologist Foundation.)

Published

2024

32. The global distribution of angiosperm genome size is shaped by climate.

Author

Bureš P, Elliott TL, Veselý P, Šmarda P, Forest F, Leitch IJ, Nic Lughadha E, Soto Gomez M, Pironon S, Brown MJM, Šmerda J, and Zedek F

Subjects

Genome Size, Genome, Plant, Polyploidy, Plants genetics, Phylogeny, Magnoliopsida genetics

Abstract

Angiosperms, which inhabit diverse environments across all continents, exhibit significant variation in genome sizes, making them an excellent model system for examining hypotheses about the global distribution of genome size. These include the previously proposed large genome constraint, mutational hazard, polyploidy-mediated, and climate-mediated hypotheses. We compiled the largest genome size dataset to date, encompassing 16 017 (> 5% of known) angiosperm species, and analyzed genome size distribution using a comprehensive geographic distribution dataset for all angiosperms. We observed that angiosperms with large range sizes generally had small genomes, supporting the large genome constraint hypothesis. Climate was shown to exert a strong influence on genome size distribution along the global latitudinal gradient, while the frequency of polyploidy and the type of growth form had negligible effects. In contrast to the unimodal patterns along the global latitudinal gradient shown by plant size traits and polyploid proportions, the increase in angiosperm genome size from the equator to 40-50°N/S is probably mediated by different (mostly climatic) mechanisms than the decrease in genome sizes observed from 40 to 50°N northward. Our analysis suggests that the global distribution of genome sizes in angiosperms is mainly shaped by climatically mediated purifying selection, genetic drift, relaxed selection, and environmental filtering., (© 2024 The Authors New Phytologist © 2024 New Phytologist Foundation.)

Published

2024

33. Machine learning enhances prediction of plants as potential sources of antimalarials.

Author

Richard-Bollans A, Aitken C, Antonelli A, Bitencourt C, Goyder D, Lucas E, Ondo I, Pérez-Escobar OA, Pironon S, Richardson JE, Russell D, Silvestro D, Wright CW, and Howes MR

Abstract

Plants are a rich source of bioactive compounds and a number of plant-derived antiplasmodial compounds have been developed into pharmaceutical drugs for the prevention and treatment of malaria, a major public health challenge. However, identifying plants with antiplasmodial potential can be time-consuming and costly. One approach for selecting plants to investigate is based on ethnobotanical knowledge which, though having provided some major successes, is restricted to a relatively small group of plant species. Machine learning, incorporating ethnobotanical and plant trait data, provides a promising approach to improve the identification of antiplasmodial plants and accelerate the search for new plant-derived antiplasmodial compounds. In this paper we present a novel dataset on antiplasmodial activity for three flowering plant families - Apocynaceae, Loganiaceae and Rubiaceae (together comprising c. 21,100 species) - and demonstrate the ability of machine learning algorithms to predict the antiplasmodial potential of plant species. We evaluate the predictive capability of a variety of algorithms - Support Vector Machines, Logistic Regression, Gradient Boosted Trees and Bayesian Neural Networks - and compare these to two ethnobotanical selection approaches - based on usage as an antimalarial and general usage as a medicine. We evaluate the approaches using the given data and when the given samples are reweighted to correct for sampling biases. In both evaluation settings each of the machine learning models have a higher precision than the ethnobotanical approaches. In the bias-corrected scenario, the Support Vector classifier performs best - attaining a mean precision of 0.67 compared to the best performing ethnobotanical approach with a mean precision of 0.46. We also use the bias correction method and the Support Vector classifier to estimate the potential of plants to provide novel antiplasmodial compounds. We estimate that 7677 species in Apocynaceae, Loganiaceae and Rubiaceae warrant further investigation and that at least 1300 active antiplasmodial species are highly unlikely to be investigated by conventional approaches. While traditional and Indigenous knowledge remains vital to our understanding of people-plant relationships and an invaluable source of information, these results indicate a vast and relatively untapped source in the search for new plant-derived antiplasmodial compounds., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Richard-Bollans, Aitken, Antonelli, Bitencourt, Goyder, Lucas, Ondo, Pérez-Escobar, Pironon, Richardson, Russell, Silvestro, Wright and Howes.)

Published

2023

34. Seasonal dynamics of Anopheles stephensi and its implications for mosquito detection and emergent malaria control in the Horn of Africa.

Author

Whittaker C, Hamlet A, Sherrard-Smith E, Winskill P, Cuomo-Dannenburg G, Walker PGT, Sinka M, Pironon S, Kumar A, Ghani A, Bhatt S, and Churcher TS

Subjects

Animals, Humans, Seasons, Mosquito Vectors, Africa epidemiology, Mosquito Control, Malaria epidemiology, Malaria prevention & control, Anopheles

Abstract

Invasion of the malaria vector Anopheles stephensi across the Horn of Africa threatens control efforts across the continent, particularly in urban settings where the vector is able to proliferate. Malaria transmission is primarily determined by the abundance of dominant vectors, which often varies seasonally with rainfall. However, it remains unclear how An. stephensi abundance changes throughout the year, despite this being a crucial input to surveillance and control activities. We collate longitudinal catch data from across its endemic range to better understand the vector's seasonal dynamics and explore the implications of this seasonality for malaria surveillance and control across the Horn of Africa. Our analyses reveal pronounced variation in seasonal dynamics, the timing and nature of which are poorly predicted by rainfall patterns. Instead, they are associated with temperature and patterns of land use; frequently differing between rural and urban settings. Our results show that timing entomological surveys to coincide with rainy periods is unlikely to improve the likelihood of detecting An. stephensi. Integrating these results into a malaria transmission model, we show that timing indoor residual spraying campaigns to coincide with peak rainfall offers little improvement in reducing disease burden compared to starting in a random month. Our results suggest that unlike other malaria vectors in Africa, rainfall may be a poor guide to predicting the timing of peaks in An. stephensi -driven malaria transmission. This highlights the urgent need for longitudinal entomological monitoring of the vector in its new environments given recent invasion and potential spread across the continent.

Published

2023

35. Madagascar's extraordinary biodiversity: Evolution, distribution, and use.

Author

Antonelli A, Smith RJ, Perrigo AL, Crottini A, Hackel J, Testo W, Farooq H, Torres Jiménez MF, Andela N, Andermann T, Andriamanohera AM, Andriambololonera S, Bachman SP, Bacon CD, Baker WJ, Belluardo F, Birkinshaw C, Borrell JS, Cable S, Canales NA, Carrillo JD, Clegg R, Clubbe C, Cooke RSC, Damasco G, Dhanda S, Edler D, Faurby S, de Lima Ferreira P, Fisher BL, Forest F, Gardiner LM, Goodman SM, Grace OM, Guedes TB, Henniges MC, Hill R, Lehmann CER, Lowry PP 2nd, Marline L, Matos-Maraví P, Moat J, Neves B, Nogueira MGC, Onstein RE, Papadopulos AST, Perez-Escobar OA, Phelps LN, Phillipson PB, Pironon S, Przelomska NAS, Rabarimanarivo M, Rabehevitra D, Raharimampionona J, Rajaonah MT, Rajaonary F, Rajaovelona LR, Rakotoarinivo M, Rakotoarisoa AA, Rakotoarisoa SE, Rakotomalala HN, Rakotonasolo F, Ralaiveloarisoa BA, Ramirez-Herranz M, Randriamamonjy JEN, Randriamboavonjy T, Randrianasolo V, Rasolohery A, Ratsifandrihamanana AN, Ravololomanana N, Razafiniary V, Razanajatovo H, Razanatsoa E, Rivers M, Sayol F, Silvestro D, Vorontsova MS, Walker K, Walker BE, Wilkin P, Williams J, Ziegler T, Zizka A, and Ralimanana H

Subjects

Humans, Biota, Forests, Madagascar, Phylogeny, Biodiversity, Biological Evolution

Abstract

Madagascar's biota is hyperdiverse and includes exceptional levels of endemicity. We review the current state of knowledge on Madagascar's past and current terrestrial and freshwater biodiversity by compiling and presenting comprehensive data on species diversity, endemism, and rates of species description and human uses, in addition to presenting an updated and simplified map of vegetation types. We report a substantial increase of records and species new to science in recent years; however, the diversity and evolution of many groups remain practically unknown (e.g., fungi and most invertebrates). Digitization efforts are increasing the resolution of species richness patterns and we highlight the crucial role of field- and collections-based research for advancing biodiversity knowledge and identifying gaps in our understanding, particularly as species richness corresponds closely to collection effort. Phylogenetic diversity patterns mirror that of species richness and endemism in most of the analyzed groups. We highlight humid forests as centers of diversity and endemism because of their role as refugia and centers of recent and rapid radiations. However, the distinct endemism of other areas, such as the grassland-woodland mosaic of the Central Highlands and the spiny forest of the southwest, is also biologically important despite lower species richness. The documented uses of Malagasy biodiversity are manifold, with much potential for the uncovering of new useful traits for food, medicine, and climate mitigation. The data presented here showcase Madagascar as a unique "living laboratory" for our understanding of evolution and the complex interactions between people and nature. The gathering and analysis of biodiversity data must continue and accelerate if we are to fully understand and safeguard this unique subset of Earth's biodiversity.

Published

2022

36. Madagascar's extraordinary biodiversity: Threats and opportunities.

Author

Ralimanana H, Perrigo AL, Smith RJ, Borrell JS, Faurby S, Rajaonah MT, Randriamboavonjy T, Vorontsova MS, Cooke RSC, Phelps LN, Sayol F, Andela N, Andermann T, Andriamanohera AM, Andriambololonera S, Bachman SP, Bacon CD, Baker WJ, Belluardo F, Birkinshaw C, Cable S, Canales NA, Carrillo JD, Clegg R, Clubbe C, Crottini A, Damasco G, Dhanda S, Edler D, Farooq H, de Lima Ferreira P, Fisher BL, Forest F, Gardiner LM, Goodman SM, Grace OM, Guedes TB, Hackel J, Henniges MC, Hill R, Lehmann CER, Lowry PP 2nd, Marline L, Matos-Maraví P, Moat J, Neves B, Nogueira MGC, Onstein RE, Papadopulos AST, Perez-Escobar OA, Phillipson PB, Pironon S, Przelomska NAS, Rabarimanarivo M, Rabehevitra D, Raharimampionona J, Rajaonary F, Rajaovelona LR, Rakotoarinivo M, Rakotoarisoa AA, Rakotoarisoa SE, Rakotomalala HN, Rakotonasolo F, Ralaiveloarisoa BA, Ramirez-Herranz M, Randriamamonjy JEN, Randrianasolo V, Rasolohery A, Ratsifandrihamanana AN, Ravololomanana N, Razafiniary V, Razanajatovo H, Razanatsoa E, Rivers M, Silvestro D, Testo W, Torres Jiménez MF, Walker K, Walker BE, Wilkin P, Williams J, Ziegler T, Zizka A, and Antonelli A

Subjects

Animals, Humans, Bayes Theorem, Biota, Madagascar, Mammals, Plants, Biodiversity, Endangered Species

Abstract

Madagascar's unique biota is heavily affected by human activity and is under intense threat. Here, we review the current state of knowledge on the conservation status of Madagascar's terrestrial and freshwater biodiversity by presenting data and analyses on documented and predicted species-level conservation statuses, the most prevalent and relevant threats, ex situ collections and programs, and the coverage and comprehensiveness of protected areas. The existing terrestrial protected area network in Madagascar covers 10.4% of its land area and includes at least part of the range of the majority of described native species of vertebrates with known distributions (97.1% of freshwater fishes, amphibians, reptiles, birds, and mammals combined) and plants (67.7%). The overall figures are higher for threatened species (97.7% of threatened vertebrates and 79.6% of threatened plants occurring within at least one protected area). International Union for Conservation of Nature (IUCN) Red List assessments and Bayesian neural network analyses for plants identify overexploitation of biological resources and unsustainable agriculture as the most prominent threats to biodiversity. We highlight five opportunities for action at multiple levels to ensure that conservation and ecological restoration objectives, programs, and activities take account of complex underlying and interacting factors and produce tangible benefits for the biodiversity and people of Madagascar.

Published

2022

37. Matches and mismatches between the global distribution of major food crops and climate suitability.

Author

Mahaut L, Pironon S, Barnagaud JY, Bretagnolle F, Khoury CK, Mehrabi Z, Milla R, Phillips C, Rieseberg LH, Violle C, and Renard D

Subjects

Agriculture methods, Ecosystem, Farms, Humans, Climate Change, Crops, Agricultural

Abstract

Over the course of history, humans have moved crops from their regions of origin to new locations across the world. The social, cultural and economic drivers of these movements have generated differences not only between current distributions of crops and their climatic origins, but also between crop distributions and climate suitability for their production. Although these mismatches are particularly important to inform agricultural strategies on climate change adaptation, they have, to date, not been quantified consistently at the global level. Here, we show that the relationships between the distributions of 12 major food crops and climate suitability for their yields display strong variation globally. After investigating the role of biophysical, socio-economic and historical factors, we report that high-income world regions display a better match between crop distribution and climate suitability. In addition, although crops are farmed predominantly in the same climatic range as their wild progenitors, climate suitability is not necessarily higher there, a pattern that reflects the legacy of domestication history on current crop distribution. Our results reveal how far the global distribution of major crops diverges from their climatic optima and call for greater consideration of the multiple dimensions of the crop socio-ecological niche in climate change adaptive strategies.

Published

2022

38. A novel statistical framework for exploring the population dynamics and seasonality of mosquito populations.

Author

Whittaker C, Winskill P, Sinka M, Pironon S, Massey C, Weiss DJ, Nguyen M, Gething PW, Kumar A, Ghani A, and Bhatt S

Subjects

Animals, Climate, Mosquito Control methods, Mosquito Vectors, Population Dynamics, Seasons, Anopheles

Abstract

Understanding the temporal dynamics of mosquito populations underlying vector-borne disease transmission is key to optimizing control strategies. Many questions remain surrounding the drivers of these dynamics and how they vary between species-questions rarely answerable from individual entomological studies (that typically focus on a single location or species). We develop a novel statistical framework enabling identification and classification of time series with similar temporal properties, and use this framework to systematically explore variation in population dynamics and seasonality in anopheline mosquito time series catch data spanning seven species, 40 years and 117 locations across mainland India. Our analyses reveal pronounced variation in dynamics across locations and between species in the extent of seasonality and timing of seasonal peaks. However, we show that these diverse dynamics can be clustered into four 'dynamical archetypes', each characterized by distinct temporal properties and associated with a largely unique set of environmental factors. Our results highlight that a range of environmental factors including rainfall, temperature, proximity to static water bodies and patterns of land use (particularly urbanicity) shape the dynamics and seasonality of mosquito populations, and provide a generically applicable framework to better identify and understand patterns of seasonal variation in vectors relevant to public health.

Published

2022

39. Scaling up neodomestication for climate-ready crops.

Author

Gutaker RM, Chater CCC, Brinton J, Castillo-Lorenzo E, Breman E, and Pironon S

Subjects

Agriculture, Gene Editing, Genomics, Climate Change, Crops, Agricultural genetics

Abstract

We can increase the stability of our food systems against environmental variability and climate change by following the footsteps of our ancestors and domesticating edible wild plants. Reinforced by recent advances in comparative genomics and gene editing technologies, neodomestication opens possibilities for a rapid generation of new crops. By starting the candidate selection pipeline with climatic parameters, we orient neodomestication efforts to increase food security against climate change. We highlight the fact that the edible species conservation and characterization will be key in this process. Utilization of genetic resources, entrusted to conservationists and researchers by local communities, has to be conducted with highest ethical standards and benefit-sharing in mind., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: All authors are employees of Royal Botanic Garden, Kew, coordinator of Millennium Seed Bank Partnership., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

40. Global plant diversity as a reservoir of micronutrients for humanity.

Author

Cantwell-Jones A, Ball J, Collar D, Diazgranados M, Douglas R, Forest F, Hawkins J, Howes MR, Ulian T, Vaitla B, and Pironon S

Subjects

Humans, Nutritional Status, Phylogeny, Plants, Edible, Malnutrition, Micronutrients

Abstract

With more than two billion people suffering from malnutrition and diets homogenizing globally, it is vital to identify and conserve nutrient-rich species that may contribute to improving food security and diversifying diets. Of the approximately 390,000 vascular plant species known to science, thousands have been reported to be edible, yet their nutritional content remains poorly characterized. Here we use phylogenetic information to identify plants with the greatest potential to support strategies alleviating B-vitamin deficiencies. We predict the B-vitamin profiles of >6,400 edible plants lacking nutritional data and identify 1,044 species as promising key sources of B vitamins. Several of these source species should become conservation priorities, as 63 (6%) are threatened in the wild and 272 (26%) are absent from seed banks. Moreover, many of these conservation-priority source species overlap with hotspots of malnutrition, highlighting the need for safeguarding strategies to ensure that edible plant diversity remains a reservoir of nutrition for future generations, particularly in countries needing it most. Although by no means a silver bullet to tackling malnutrition, conserving a diverse portfolio of edible plants, unravelling their nutritional potentials, and promoting their sustainable use are essential strategies to enhance global nutritional resilience., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

41. Interactions between breeding system and ploidy affect niche breadth in Solanum .

Author

Fumia N, Rubinoff D, Zenil-Ferguson R, Khoury CK, Pironon S, Gore MA, and Kantar MB

Abstract

Understanding the factors driving ecological and evolutionary interactions of economically important plant species is important for agricultural sustainability. The geography of crop wild relatives, including wild potatoes ( Solanum section Petota ), have received attention; however, such information has not been analysed in combination with phylogenetic histories, genomic composition and reproductive systems to identify potential species for use in breeding for abiotic stress tolerance. We used a combination of ordinary least-squares (OLS) and phylogenetic generalized least-squares (PGLM) analyses to identify the discrete climate classes that make up the climate niche that wild potato species inhabit in the context of breeding system and ploidy. Self-incompatible diploid or self-compatible polyploid species significantly increase the number of discrete climate classes within a climate niche inhabited. This result was sustained when correcting for phylogenetic non-independence in the linear model. Our results support the idea that specific breeding system and ploidy combinations increase niche breadth through the decoupling of geographical range and niche diversity, and therefore, these species may be of particular interest for crop adaptation to a changing climate., (© 2022 The Authors.)

Published

2022

42. Plant Diversity Conservation Challenges and Prospects-The Perspective of Botanic Gardens and the Millennium Seed Bank.

Author

Breman E, Ballesteros D, Castillo-Lorenzo E, Cockel C, Dickie J, Faruk A, O'Donnell K, Offord CA, Pironon S, Sharrock S, and Ulian T

Abstract

There is a pressing need to conserve plant diversity to prevent extinctions and to enable sustainable use of plant material by current and future generations. Here, we review the contribution that living collections and seed banks based in botanic gardens around the world make to wild plant conservation and to tackling global challenges. We focus in particular on the work of Botanic Gardens Conservation International and the Millennium Seed Bank of the Royal Botanic Gardens, Kew, with its associated global Partnership. The advantages and limitations of conservation of plant diversity as both living material and seed collections are reviewed, and the need for additional research and conservation measures, such as cryopreservation, to enable the long-term conservation of 'exceptional species' is discussed. We highlight the importance of networks and sharing access to data and plant material. The skill sets found within botanic gardens and seed banks complement each other and enable the development of integrated conservation (linking in situ and ex situ efforts). Using a number of case studies we demonstrate how botanic gardens and seed banks support integrated conservation and research for agriculture and food security, restoration and reforestation, as well as supporting local livelihoods.

Published

2021

43. Areas of global importance for conserving terrestrial biodiversity, carbon and water.

Author

Jung M, Arnell A, de Lamo X, García-Rangel S, Lewis M, Mark J, Merow C, Miles L, Ondo I, Pironon S, Ravilious C, Rivers M, Schepaschenko D, Tallowin O, van Soesbergen A, Govaerts R, Boyle BL, Enquist BJ, Feng X, Gallagher R, Maitner B, Meiri S, Mulligan M, Ofer G, Roll U, Hanson JO, Jetz W, Di Marco M, McGowan J, Rinnan DS, Sachs JD, Lesiv M, Adams VM, Andrew SC, Burger JR, Hannah L, Marquet PA, McCarthy JK, Morueta-Holme N, Newman EA, Park DS, Roehrdanz PR, Svenning JC, Violle C, Wieringa JJ, Wynne G, Fritz S, Strassburg BBN, Obersteiner M, Kapos V, Burgess N, Schmidt-Traub G, and Visconti P

Subjects

Animals, Biodiversity, Endangered Species, Humans, Vertebrates, Carbon, Conservation of Natural Resources

Abstract

To meet the ambitious objectives of biodiversity and climate conventions, the international community requires clarity on how these objectives can be operationalized spatially and how multiple targets can be pursued concurrently. To support goal setting and the implementation of international strategies and action plans, spatial guidance is needed to identify which land areas have the potential to generate the greatest synergies between conserving biodiversity and nature's contributions to people. Here we present results from a joint optimization that minimizes the number of threatened species, maximizes carbon retention and water quality regulation, and ranks terrestrial conservation priorities globally. We found that selecting the top-ranked 30% and 50% of terrestrial land area would conserve respectively 60.7% and 85.3% of the estimated total carbon stock and 66% and 89.8% of all clean water, in addition to meeting conservation targets for 57.9% and 79% of all species considered. Our data and prioritization further suggest that adequately conserving all species considered (vertebrates and plants) would require giving conservation attention to ~70% of the terrestrial land surface. If priority was given to biodiversity only, managing 30% of optimally located land area for conservation may be sufficient to meet conservation targets for 81.3% of the terrestrial plant and vertebrate species considered. Our results provide a global assessment of where land could be optimally managed for conservation. We discuss how such a spatial prioritization framework can support the implementation of the biodiversity and climate conventions., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2021

44. Author Correction: Areas of global importance for conserving terrestrial biodiversity, carbon and water.

Author

Jung M, Arnell A, de Lamo X, García-Rangel S, Lewis M, Mark J, Merow C, Miles L, Ondo I, Pironon S, Ravilious C, Rivers M, Schepaschenko D, Tallowin O, van Soesbergen A, Govaerts R, Boyle BL, Enquist BJ, Feng X, Gallagher R, Maitner B, Meiri S, Mulligan M, Ofer G, Roll U, Hanson JO, Jetz W, Di Marco M, McGowan J, Rinnan DS, Sachs JD, Lesiv M, Adams VM, Andrew SC, Burger JR, Hannah L, Marquet PA, McCarthy JK, Morueta-Holme N, Newman EA, Park DS, Roehrdanz PR, Svenning JC, Violle C, Wieringa JJ, Wynne G, Fritz S, Strassburg BBN, Obersteiner M, Kapos V, Burgess N, Schmidt-Traub G, and Visconti P

Published

2021

45. Pollen sterols are associated with phylogeny and environment but not with pollinator guilds.

Author

Zu P, Koch H, Schwery O, Pironon S, Phillips C, Ondo I, Farrell IW, Nes WD, Moore E, Wright GA, Farman DI, and Stevenson PC

Subjects

Animals, Insecta, Phylogeny, Pollen, Phytosterols, Sterols

Abstract

Phytosterols are primary plant metabolites that have fundamental structural and regulatory functions. They are also essential nutrients for phytophagous insects, including pollinators, that cannot synthesize sterols. Despite the well-described composition and diversity in vegetative plant tissues, few studies have examined phytosterol diversity in pollen. We quantified 25 pollen phytosterols in 122 plant species (105 genera, 51 families) to determine their composition and diversity across plant taxa. We searched literature and databases for plant phylogeny, environmental conditions, and pollinator guilds of the species to examine the relationships with pollen sterols. 24-methylenecholesterol, sitosterol and isofucosterol were the most common and abundant pollen sterols. We found phylogenetic clustering of twelve individual sterols, total sterol content and sterol diversity, and of sterol groupings that reflect their underlying biosynthesis pathway (C-24 alkylation, ring B desaturation). Plants originating in tropical-like climates (higher mean annual temperature, lower temperature seasonality, higher precipitation in wettest quarter) were more likely to record higher pollen sterol content. However, pollen sterol composition and content showed no clear relationship with pollinator guilds. Our study is the first to show that pollen sterol diversity is phylogenetically clustered and that pollen sterol content may adapt to environmental conditions., (© 2021 The Authors New Phytologist © 2021 New Phytologist Foundation.)

Published

2021

46. Toward Unifying Global Hotspots of Wild and Domesticated Biodiversity.

Author

Pironon S, Borrell JS, Ondo I, Douglas R, Phillips C, Khoury CK, Kantar MB, Fumia N, Soto Gomez M, Viruel J, Govaerts R, Forest F, and Antonelli A

Abstract

Global biodiversity hotspots are areas containing high levels of species richness, endemism and threat. Similarly, regions of agriculturally relevant diversity have been identified where many domesticated plants and animals originated, and co-occurred with their wild ancestors and relatives. The agro-biodiversity in these regions has, likewise, often been considered threatened. Biodiversity and agro-biodiversity hotspots partly overlap, but their geographic intricacies have rarely been investigated together. Here we review the history of these two concepts and explore their geographic relationship by analysing global distribution and human use data for all plants, and for major crops and associated wild relatives. We highlight a geographic continuum between agro-biodiversity hotspots that contain high richness in species that are intensively used and well known by humanity (i.e., major crops and most viewed species on Wikipedia) and biodiversity hotspots encompassing species that are less heavily used and documented (i.e., crop wild relatives and species lacking information on Wikipedia). Our contribution highlights the key considerations needed for further developing a unifying concept of agro-biodiversity hotspots that encompasses multiple facets of diversity (including genetic and phylogenetic) and the linkage with overall biodiversity. This integration will ultimately enhance our understanding of the geography of human-plant interactions and help guide the preservation of nature and its contributions to people.

Published

2020

47. Mutualistic interactions reshuffle the effects of climate change on plants across the tree of life.

Author

Bascompte J, García MB, Ortega R, Rezende EL, and Pironon S

Subjects

Animals, Biodiversity, Climate, Computer Simulation, Ecosystem, Europe, Geography, Insecta, Linear Models, Phylogeny, Pollination, Population Dynamics, ROC Curve, Risk, Stochastic Processes, Climate Change, Extinction, Biological, Plant Physiological Phenomena, Plants classification, Symbiosis

Abstract

Climatically induced local species extinctions may trigger coextinction cascades, thus driving many more species to extinction than originally predicted by species distribution models. Using seven pollination networks across Europe that include the phylogeny and life history traits of plants, we show a substantial variability across networks in climatically predicted plant extinction-and particularly the subsequent coextinction-rates, with much higher values in Mediterranean than Eurosiberian networks. While geographic location best predicts the probability of a plant species to be driven to extinction by climate change, subsequent coextinctions are best predicted by the local network of interactions. These coextinctions not only increase the total number of plant species being driven to extinction but also add a bias in the way the major taxonomic and functional groups are pruned.

Published

2019

48. Geographic variation in genetic and demographic performance: new insights from an old biogeographical paradigm.

Author

Pironon S, Papuga G, Villellas J, Angert AL, García MB, and Thompson JD

Subjects

Animals, Models, Genetic, Animal Distribution physiology, Ecosystem, Gene Flow, Genetic Variation

Abstract

The 'centre-periphery hypothesis' (CPH) is a long-standing postulate in ecology that states that genetic variation and demographic performance of a species decrease from the centre to the edge of its geographic range. This hypothesis is based on an assumed concordance between geographical peripherality and ecological marginality such that environmental conditions become harsher towards the limits of a species range. In this way, the CPH sets the stage for understanding the causes of distribution limits. To date, no study has examined conjointly the consistency of these postulates. In an extensive literature review we discuss the birth and development of the CPH and provide an assessment of the CPH by reviewing 248 empirical studies in the context of three main themes. First, a decrease in species occurrence towards their range limits was observed in 81% of studies, while only 51% demonstrated reduced abundance of individuals. A decline in genetic variation, increased differentiation among populations and higher rates of inbreeding were demonstrated by roughly one in two studies (47, 45 and 48%, respectively). However, demographic rates, size and population performance less often followed CPH expectations (20-30% of studies). We highlight the impact of important methodological, taxonomic, and biogeographical biases on such validation rates. Second, we found that geographic and ecological marginality gradients are not systematically concordant, which casts doubt on the reliability of a main assumption of the CPH. Finally, we attempt to disentangle the relative contribution of geographical, ecological and historical processes on the spatial distribution of genetic and demographic parameters. While ecological marginality gradients explain variation in species' demographic performance better than geographic gradients, contemporary and historical factors may contribute interactively to spatial patterns of genetic variation. We thereby propose a framework that integrates species' ecological niche characteristics together with current and past range structure to investigate spatial patterns of genetic and demographic variation across species ranges., (© 2016 Cambridge Philosophical Society.)

Published

2017

49. Balance between climate change mitigation benefits and land use impacts of bioenergy: conservation implications for European birds.

Author

Meller L, Thuiller W, Pironon S, Barbet-Massin M, Hof A, and Cabeza M

Abstract

Both climate change and habitat modification exert serious pressure on biodiversity. Although climate change mitigation has been identified as an important strategy for biodiversity conservation, bioenergy remains a controversial mitigation action due to its potential negative ecological and socio-economic impacts which arise through habitat modification by land-use change. While the debate continues, the separate or simultaneous impacts of both climate change and bioenergy on biodiversity have not yet been compared. We assess projected range shifts of 156 European bird species by 2050 under two alternative climate change trajectories: a baseline scenario, where the global mean temperature increases by 4°C by the end of the century, and a 2 degrees scenario, where global concerted effort limits the temperature increase to below 2°C. For the latter scenario, we also quantify the pressure exerted by increased cultivation of energy biomass as modelled by IMAGE2.4, an integrated land-use model. The global bioenergy use in this scenario is in the lower end of the range of previously estimated sustainable potential. Under the assumptions of these scenarios, we find that the magnitude of range shifts due to climate change is far greater than the impact of land conversion to woody bioenergy plantations within the European Union, and that mitigation of climate change reduces the exposure experienced by species. However, we identified potential for local conservation conflict between priority areas for conservation and bioenergy production. These conflicts must be addressed by strict bioenergy sustainability criteria that acknowledge biodiversity conservation needs beyond existing protected areas and apply also to biomass imported from outside the European Union.

Published

2015

50. Ensemble distribution models in conservation prioritization: from consensus predictions to consensus reserve networks.

Author

Meller L, Cabeza M, Pironon S, Barbet-Massin M, Maiorano L, Georges D, and Thuiller W

Abstract

Aim: Conservation planning exercises increasingly rely on species distributions predicted either from one particular statistical model or, more recently, from an ensemble of models (i.e. ensemble forecasting). However, it has not yet been explored how different ways of summarizing ensemble predictions affect conservation planning outcomes. We evaluate these effects and compare commonplace consensus methods, applied before the conservation prioritization phase, to a novel method that applies consensus after reserve selection., Location: Europe., Methods: We used an ensemble of predicted distributions of 146 Western Palaearctic bird species in alternative ways: four different consensus methods, as well as distributions discounted with variability, were used to produce inputs for spatial conservation prioritization. In addition, we developed and tested a novel method, in which we built 100 datasets by sampling the ensemble of predicted distributions, ran a conservation prioritization analysis on each of them and averaged the resulting priority ranks. We evaluated the conservation outcome against three controls: (i) a null control, based on random ranking of cells; (2) the reference solution, based on an expert-refined dataset; and (3) the independent solution, based on an independent dataset., Results: Networks based on predicted distributions were more representative of rare species than randomly selected networks. Alternative methods to summarize ensemble predictions differed in representativeness of resulting reserve networks. Our novel method resulted in better representation of rare species than pre-selection consensus methods., Main Conclusions: Retaining information about the variation in the predicted distributions throughout the conservation prioritization seems to provide better results than summarizing the predictions before conservation prioritization. Our results highlight the need to understand and consider model-based uncertainty when using predicted distribution data in conservation prioritization.

Published

2014