Global meta-analysis shows action is needed to halt genetic diversity loss

Robyn E. Shaw; Katherine A. Farquharson; Michael W. Bruford; David J. Coates; Carole P. Elliott; Joachim Mergeay; Kym M. Ottewell; Gernot Segelbacher; Sean Hoban; Christina Hvilsom; Silvia Perez-Espona; Dainis Runis; Filippos Aravanopoulos; Laura D. Bertola; Helena Cotrim; Karen Cox; Vlatka Cubric-Curik; Robert Ekblom; Jose A. Godoy; Maciej K. Konopinski; Linda Laikre; Isa-Rita M. Russo; Nevena Velickovic; Philippine Vergeer; Carles Vila; Vladimir Brajkovic; David L. Field; William P. Goodall-Copestake; Frank Hailer; Tara Hopley; Frank E. Zachos; Paulo C. Alves; Aleksandra Biedrzycka; Rachel M. Binks; Joukje Buiteveld; Elena Buzan; Margaret Byrne; Barton Huntley; Laura Iacolina; Naomi L. P. Keehnen; Peter Klinga; Alexander Kopatz; Sara Kurland; Jennifer A. Leonard; Chiara Manfrin; Alexis Marchesini; Melissa A. Millar; Pablo Orozco-terWengel; Jente Ottenburghs; Diana Posledovich; Peter B. Spencer; Nikolaos Tourvas; Tina Unuk Nahberger; Pim van Hooft; Rita Verbylaite; Cristiano Vernesi; Catherine E. Grueber

doi:10.1038/s41586-024-08458-x

Global meta-analysis shows action is needed to halt genetic diversity loss

Robyn E. Shaw, Katherine A. Farquharson, Michael W. Bruford, David J. Coates, Carole P. Elliott, Joachim Mergeay, Kym M. Ottewell, Gernot Segelbacher, Sean Hoban, Christina Hvilsom, Silvia Perez-Espona, Dainis Runis, Filippos Aravanopoulos, Laura D. Bertola, Helena Cotrim, Karen Cox, Vlatka Cubric-Curik, Robert Ekblom, Jose A. Godoy, Maciej K. KonopinskiLinda Laikre, Isa-Rita M. Russo, Nevena Velickovic, Philippine Vergeer, Carles Vila, Vladimir Brajkovic, David L. Field, William P. Goodall-Copestake, Frank Hailer, Tara Hopley, Frank E. Zachos, Paulo C. Alves, Aleksandra Biedrzycka, Rachel M. Binks, Joukje Buiteveld, Elena Buzan, Margaret Byrne, Barton Huntley, Laura Iacolina, Naomi L. P. Keehnen, Peter Klinga, Alexander Kopatz, Sara Kurland, Jennifer A. Leonard, Chiara Manfrin, Alexis Marchesini, Melissa A. Millar, Pablo Orozco-terWengel, Jente Ottenburghs, Diana Posledovich, Peter B. Spencer, Nikolaos Tourvas, Tina Unuk Nahberger, Pim van Hooft, Rita Verbylaite, Cristiano Vernesi, Catherine E. Grueber

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

Mitigating loss of genetic diversity is a major global biodiversity challenge1, 2, 3-4. To meet recent international commitments to maintain genetic diversity within species5,6, we need to understand relationships between threats, conservation management and genetic diversity change. Here we conduct a global analysis of genetic diversity change via meta-analysis of all available temporal measures of genetic diversity from more than three decades of research. We show that within-population genetic diversity is being lost over timescales likely to have been impacted by human activities, and that some conservation actions may mitigate this loss. Our dataset includes 628 species (animals, plants, fungi and chromists) across all terrestrial and most marine realms on Earth. Threats impacted two-thirds of the populations that we analysed, and less than half of the populations analysed received conservation management. Genetic diversity loss occurs globally and is a realistic prediction for many species, especially birds and mammals, in the face of threats such as land use change, disease, abiotic natural phenomena and harvesting or harassment. Conservation strategies designed to improve environmental conditions, increase population growth rates and introduce new individuals (for example, restoring connectivity or performing translocations) may maintain or even increase genetic diversity. Our findings underscore the urgent need for active, genetically informed conservation interventions to halt genetic diversity loss.

Original language	English
Pages (from-to)	704-710
Number of pages	7
Journal	Nature
Volume	638
Issue number	8051
DOIs	https://doi.org/10.1038/s41586-024-08458-x
Publication status	Published - 1 Feb 2025

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Shaw, R. E., Farquharson, K. A., Bruford, M. W., Coates, D. J., Elliott, C. P., Mergeay, J., Ottewell, K. M., Segelbacher, G., Hoban, S., Hvilsom, C., Perez-Espona, S., Runis, D., Aravanopoulos, F., Bertola, L. D., Cotrim, H., Cox, K., Cubric-Curik, V., Ekblom, R., Godoy, J. A., ... Grueber, C. E. (2025). Global meta-analysis shows action is needed to halt genetic diversity loss. Nature, 638(8051), 704-710. https://doi.org/10.1038/s41586-024-08458-x

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abstract = "Mitigating loss of genetic diversity is a major global biodiversity challenge1, 2, 3-4. To meet recent international commitments to maintain genetic diversity within species5,6, we need to understand relationships between threats, conservation management and genetic diversity change. Here we conduct a global analysis of genetic diversity change via meta-analysis of all available temporal measures of genetic diversity from more than three decades of research. We show that within-population genetic diversity is being lost over timescales likely to have been impacted by human activities, and that some conservation actions may mitigate this loss. Our dataset includes 628 species (animals, plants, fungi and chromists) across all terrestrial and most marine realms on Earth. Threats impacted two-thirds of the populations that we analysed, and less than half of the populations analysed received conservation management. Genetic diversity loss occurs globally and is a realistic prediction for many species, especially birds and mammals, in the face of threats such as land use change, disease, abiotic natural phenomena and harvesting or harassment. Conservation strategies designed to improve environmental conditions, increase population growth rates and introduce new individuals (for example, restoring connectivity or performing translocations) may maintain or even increase genetic diversity. Our findings underscore the urgent need for active, genetically informed conservation interventions to halt genetic diversity loss.",

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author = "Shaw, {Robyn E.} and Farquharson, {Katherine A.} and Bruford, {Michael W.} and Coates, {David J.} and Elliott, {Carole P.} and Joachim Mergeay and Ottewell, {Kym M.} and Gernot Segelbacher and Sean Hoban and Christina Hvilsom and Silvia Perez-Espona and Dainis Runis and Filippos Aravanopoulos and Bertola, {Laura D.} and Helena Cotrim and Karen Cox and Vlatka Cubric-Curik and Robert Ekblom and Godoy, {Jose A.} and Konopinski, {Maciej K.} and Linda Laikre and Russo, {Isa-Rita M.} and Nevena Velickovic and Philippine Vergeer and Carles Vila and Vladimir Brajkovic and Field, {David L.} and Goodall-Copestake, {William P.} and Frank Hailer and Tara Hopley and Zachos, {Frank E.} and Alves, {Paulo C.} and Aleksandra Biedrzycka and Binks, {Rachel M.} and Joukje Buiteveld and Elena Buzan and Margaret Byrne and Barton Huntley and Laura Iacolina and Keehnen, {Naomi L. P.} and Peter Klinga and Alexander Kopatz and Sara Kurland and Leonard, {Jennifer A.} and Chiara Manfrin and Alexis Marchesini and Millar, {Melissa A.} and Pablo Orozco-terWengel and Jente Ottenburghs and Diana Posledovich and Spencer, {Peter B.} and Nikolaos Tourvas and {Unuk Nahberger}, Tina and {van Hooft}, Pim and Rita Verbylaite and Cristiano Vernesi and Grueber, {Catherine E.}",

year = "2025",

month = feb,

day = "1",

doi = "10.1038/s41586-024-08458-x",

language = "English",

volume = "638",

pages = "704--710",

journal = "Nature",

issn = "0028-0836",

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number = "8051",

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Shaw, RE, Farquharson, KA, Bruford, MW, Coates, DJ , Elliott, CP, Mergeay, J, Ottewell, KM, Segelbacher, G, Hoban, S, Hvilsom, C, Perez-Espona, S, Runis, D, Aravanopoulos, F, Bertola, LD, Cotrim, H, Cox, K, Cubric-Curik, V, Ekblom, R, Godoy, JA, Konopinski, MK, Laikre, L, Russo, I-RM, Velickovic, N, Vergeer, P, Vila, C, Brajkovic, V, Field, DL, Goodall-Copestake, WP, Hailer, F, Hopley, T, Zachos, FE, Alves, PC, Biedrzycka, A, Binks, RM, Buiteveld, J, Buzan, E, Byrne, M, Huntley, B, Iacolina, L, Keehnen, NLP, Klinga, P, Kopatz, A, Kurland, S, Leonard, JA, Manfrin, C, Marchesini, A, Millar, MA, Orozco-terWengel, P, Ottenburghs, J, Posledovich, D, Spencer, PB, Tourvas, N, Unuk Nahberger, T, van Hooft, P, Verbylaite, R, Vernesi, C & Grueber, CE 2025, 'Global meta-analysis shows action is needed to halt genetic diversity loss', Nature, vol. 638, no. 8051, pp. 704-710. https://doi.org/10.1038/s41586-024-08458-x

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T1 - Global meta-analysis shows action is needed to halt genetic diversity loss

AU - Shaw, Robyn E.

AU - Farquharson, Katherine A.

AU - Bruford, Michael W.

AU - Coates, David J.

AU - Elliott, Carole P.

AU - Mergeay, Joachim

AU - Ottewell, Kym M.

AU - Segelbacher, Gernot

AU - Hoban, Sean

AU - Hvilsom, Christina

AU - Perez-Espona, Silvia

AU - Runis, Dainis

AU - Aravanopoulos, Filippos

AU - Bertola, Laura D.

AU - Cotrim, Helena

AU - Cox, Karen

AU - Cubric-Curik, Vlatka

AU - Ekblom, Robert

AU - Godoy, Jose A.

AU - Konopinski, Maciej K.

AU - Laikre, Linda

AU - Russo, Isa-Rita M.

AU - Velickovic, Nevena

AU - Vergeer, Philippine

AU - Vila, Carles

AU - Brajkovic, Vladimir

AU - Field, David L.

AU - Goodall-Copestake, William P.

AU - Hailer, Frank

AU - Hopley, Tara

AU - Zachos, Frank E.

AU - Alves, Paulo C.

AU - Biedrzycka, Aleksandra

AU - Binks, Rachel M.

AU - Buiteveld, Joukje

AU - Buzan, Elena

AU - Byrne, Margaret

AU - Huntley, Barton

AU - Iacolina, Laura

AU - Keehnen, Naomi L. P.

AU - Klinga, Peter

AU - Kopatz, Alexander

AU - Kurland, Sara

AU - Leonard, Jennifer A.

AU - Manfrin, Chiara

AU - Marchesini, Alexis

AU - Millar, Melissa A.

AU - Orozco-terWengel, Pablo

AU - Ottenburghs, Jente

AU - Posledovich, Diana

AU - Spencer, Peter B.

AU - Tourvas, Nikolaos

AU - Unuk Nahberger, Tina

AU - van Hooft, Pim

AU - Verbylaite, Rita

AU - Vernesi, Cristiano

AU - Grueber, Catherine E.

PY - 2025/2/1

Y1 - 2025/2/1

N2 - Mitigating loss of genetic diversity is a major global biodiversity challenge1, 2, 3-4. To meet recent international commitments to maintain genetic diversity within species5,6, we need to understand relationships between threats, conservation management and genetic diversity change. Here we conduct a global analysis of genetic diversity change via meta-analysis of all available temporal measures of genetic diversity from more than three decades of research. We show that within-population genetic diversity is being lost over timescales likely to have been impacted by human activities, and that some conservation actions may mitigate this loss. Our dataset includes 628 species (animals, plants, fungi and chromists) across all terrestrial and most marine realms on Earth. Threats impacted two-thirds of the populations that we analysed, and less than half of the populations analysed received conservation management. Genetic diversity loss occurs globally and is a realistic prediction for many species, especially birds and mammals, in the face of threats such as land use change, disease, abiotic natural phenomena and harvesting or harassment. Conservation strategies designed to improve environmental conditions, increase population growth rates and introduce new individuals (for example, restoring connectivity or performing translocations) may maintain or even increase genetic diversity. Our findings underscore the urgent need for active, genetically informed conservation interventions to halt genetic diversity loss.

AB - Mitigating loss of genetic diversity is a major global biodiversity challenge1, 2, 3-4. To meet recent international commitments to maintain genetic diversity within species5,6, we need to understand relationships between threats, conservation management and genetic diversity change. Here we conduct a global analysis of genetic diversity change via meta-analysis of all available temporal measures of genetic diversity from more than three decades of research. We show that within-population genetic diversity is being lost over timescales likely to have been impacted by human activities, and that some conservation actions may mitigate this loss. Our dataset includes 628 species (animals, plants, fungi and chromists) across all terrestrial and most marine realms on Earth. Threats impacted two-thirds of the populations that we analysed, and less than half of the populations analysed received conservation management. Genetic diversity loss occurs globally and is a realistic prediction for many species, especially birds and mammals, in the face of threats such as land use change, disease, abiotic natural phenomena and harvesting or harassment. Conservation strategies designed to improve environmental conditions, increase population growth rates and introduce new individuals (for example, restoring connectivity or performing translocations) may maintain or even increase genetic diversity. Our findings underscore the urgent need for active, genetically informed conservation interventions to halt genetic diversity loss.

KW - Ecological consequences

KW - Biodiversity loss

KW - R package

KW - Visualization

KW - Populations

KW - Impact

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Global meta-analysis shows action is needed to halt genetic diversity loss

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