Overcoming the worst of both worlds: integrating climate change and habitat loss into spatial conservation planning of genetic diversity in the Brazilian Cerrado

Conservation strategies aiming to safeguard species genetic diversity in the Cerrado are urgent. The biome is an agriculture frontier and lost at least 50% of its natural capital since the early 1950s, with the highest rate of vegetation clearing among all Brazilian biomes. Here we match information...

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Published in	Biodiversity and conservation Vol. 29; no. 5; pp. 1555 - 1570
Main Authors	Diniz-Filho, José Alexandre Felizola, de Oliveira Ferraz Barbosa, Ana Clara, Chaves, Lázaro José, da Silva e Souza, Kelly, Dobrovolski, Ricardo, Rattis, Ludmila, Terribile, Levi Carina, Lima-Ribeiro, Matheus Souza, de Oliveira, Guilherme, Brum, Fernanda Thiesen, Loyola, Rafael, de Campos Telles, Mariana Pires
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.04.2020 Springer Springer Nature B.V
Subjects	Alleles Biodiversity Biomedical and Life Sciences Biomes cerrado climate Climate change Climate Change/Climate Change Impacts Conservation Conservation Biology/Ecology conservation programs Ecology ecosystems Eugenia dysenterica Genetic diversity Genetic variation geographical distribution Global temperature changes habitat destruction Habitat loss humans Life Sciences natural capital occupations Original Paper Population genetics Populations Priorities prioritization Protection and preservation Solutions Species Species diversity Stability trees Wildlife conservation Cerrado Genetic diversity Irreplaceability Brazilian Cerrado Ecological niche modeling
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ISSN	0960-3115 1572-9710
DOI	10.1007/s10531-018-1667-y

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Abstract	Conservation strategies aiming to safeguard species genetic diversity in the Cerrado are urgent. The biome is an agriculture frontier and lost at least 50% of its natural capital since the early 1950s, with the highest rate of vegetation clearing among all Brazilian biomes. Here we match information on geographic range shifts in response to climate changes and habitat loss to define conservation priorities for species genetic diversity using Eugenia dysenterica , a widely distributed tree across the Brazilian Cerrado. We found a set of 27 optimal solutions in which a minimum of 12 out of 23 populations are necessary to represent all 208 alleles of the species. Environmental suitability predicted for 2050 was higher for populations in the southern region of the Cerrado, whereas the proportion of natural remnants around populations expected for 2030 was lower in this same region. Thus, it seems to be more conservative to adopt “in situ” strategies in the northwestern part of the species range to hold more genetic diversity in areas harboring high numbers of natural remnants, despite the likely reduction in climatic suitability. On the other hand, in the southern and southeastern region of the range, despite more stability from a climatic point of view, there was a serious constraint given the high levels of human occupation; in this case, “ex situ” strategies might be a better option for the species. Our results and proposed priorities enable different strategies for making an operational approach for conservation of genetic diversity. Adopting different prioritization strategies for stable and unstable regions (both in climatic suitability and natural remnants) in the future would allow, in principle, to avoid “the worst of both worlds” to achieve an efficient conservation program for the species.
AbstractList	Conservation strategies aiming to safeguard species genetic diversity in the Cerrado are urgent. The biome is an agriculture frontier and lost at least 50% of its natural capital since the early 1950s, with the highest rate of vegetation clearing among all Brazilian biomes. Here we match information on geographic range shifts in response to climate changes and habitat loss to define conservation priorities for species genetic diversity using Eugenia dysenterica, a widely distributed tree across the Brazilian Cerrado. We found a set of 27 optimal solutions in which a minimum of 12 out of 23 populations are necessary to represent all 208 alleles of the species. Environmental suitability predicted for 2050 was higher for populations in the southern region of the Cerrado, whereas the proportion of natural remnants around populations expected for 2030 was lower in this same region. Thus, it seems to be more conservative to adopt “in situ” strategies in the northwestern part of the species range to hold more genetic diversity in areas harboring high numbers of natural remnants, despite the likely reduction in climatic suitability. On the other hand, in the southern and southeastern region of the range, despite more stability from a climatic point of view, there was a serious constraint given the high levels of human occupation; in this case, “ex situ” strategies might be a better option for the species. Our results and proposed priorities enable different strategies for making an operational approach for conservation of genetic diversity. Adopting different prioritization strategies for stable and unstable regions (both in climatic suitability and natural remnants) in the future would allow, in principle, to avoid “the worst of both worlds” to achieve an efficient conservation program for the species. Conservation strategies aiming to safeguard species genetic diversity in the Cerrado are urgent. The biome is an agriculture frontier and lost at least 50% of its natural capital since the early 1950s, with the highest rate of vegetation clearing among all Brazilian biomes. Here we match information on geographic range shifts in response to climate changes and habitat loss to define conservation priorities for species genetic diversity using Eugenia dysenterica , a widely distributed tree across the Brazilian Cerrado. We found a set of 27 optimal solutions in which a minimum of 12 out of 23 populations are necessary to represent all 208 alleles of the species. Environmental suitability predicted for 2050 was higher for populations in the southern region of the Cerrado, whereas the proportion of natural remnants around populations expected for 2030 was lower in this same region. Thus, it seems to be more conservative to adopt “in situ” strategies in the northwestern part of the species range to hold more genetic diversity in areas harboring high numbers of natural remnants, despite the likely reduction in climatic suitability. On the other hand, in the southern and southeastern region of the range, despite more stability from a climatic point of view, there was a serious constraint given the high levels of human occupation; in this case, “ex situ” strategies might be a better option for the species. Our results and proposed priorities enable different strategies for making an operational approach for conservation of genetic diversity. Adopting different prioritization strategies for stable and unstable regions (both in climatic suitability and natural remnants) in the future would allow, in principle, to avoid “the worst of both worlds” to achieve an efficient conservation program for the species.
Audience	Academic
Author	de Oliveira Ferraz Barbosa, Ana Clara de Oliveira, Guilherme Brum, Fernanda Thiesen Loyola, Rafael Diniz-Filho, José Alexandre Felizola Dobrovolski, Ricardo Terribile, Levi Carina Lima-Ribeiro, Matheus Souza da Silva e Souza, Kelly Rattis, Ludmila de Campos Telles, Mariana Pires Chaves, Lázaro José
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Snippet	Conservation strategies aiming to safeguard species genetic diversity in the Cerrado are urgent. The biome is an agriculture frontier and lost at least 50% of...
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SubjectTerms	Alleles Biodiversity Biomedical and Life Sciences Biomes cerrado climate Climate change Climate Change/Climate Change Impacts Conservation Conservation Biology/Ecology conservation programs Ecology ecosystems Eugenia dysenterica Genetic diversity Genetic variation geographical distribution Global temperature changes habitat destruction Habitat loss humans Life Sciences natural capital occupations Original Paper Population genetics Populations Priorities prioritization Protection and preservation Solutions Species Species diversity Stability trees Wildlife conservation
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Title	Overcoming the worst of both worlds: integrating climate change and habitat loss into spatial conservation planning of genetic diversity in the Brazilian Cerrado
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