Human proximity and habitat fragmentation are key drivers of the rangewide bonobo distribution

Habitat loss and hunting threaten bonobos ( Pan paniscus ), Endangered (IUCN) great apes endemic to lowland rainforests of the Democratic Republic of Congo. Conservation planning requires a current, data-driven, rangewide map of probable bonobo distribution and an understanding of key attributes of...

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Veröffentlicht in:	Biodiversity and conservation 2013-12, Vol.22 (13-14), p.3085-3104
Hauptverfasser:	Hickey, Jena R., Nackoney, Janet, Nibbelink, Nathan P., Blake, Stephen, Bonyenge, Aime, Coxe, Sally, Dupain, Jef, Emetshu, Maurice, Furuichi, Takeshi, Grossmann, Falk, Guislain, Patrick, Hart, John, Hashimoto, Chie, Ikembelo, Bernard, Ilambu, Omari, Inogwabini, Bila-Isia, Liengola, Innocent, Lokasola, Albert Lotana, Lushimba, Alain, Maisels, Fiona, Masselink, Joel, Mbenzo, Valentin, Mulavwa, Norbert Mbangia, Naky, Pascal, Ndunda, Nicolas Mwanza, Nkumu, Pele, Omasombo, Valentin, Reinartz, Gay Edwards, Rose, Robert, Sakamaki, Tetsuya, Strindberg, Samantha, Takemoto, Hiroyuki, Vosper, Ashley, Kühl, Hjalmar S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Abiotic factors Agriculture Animal, plant and microbial ecology Applied ecology Biodiversity Biological and medical sciences Biomedical and Life Sciences Climate Change/Climate Change Impacts Conservation Biology/Ecology Conservation, protection and management of environment and wildlife Ecology Ecosystem components Endangered & extinct species Endangered species Environmental degradation: ecosystems survey and restoration Exploitation and management of natural biological resources (hunting, fishing and exploited populations survey, etc.) Fundamental and applied biological sciences. Psychology General aspects Habitat destruction Habitat fragmentation Habitat loss Habitats Hunting Life Sciences Maximum entropy Monkeys & apes Nests Original Paper Protection and preservation Rain forests Rainforests Wildlife conservation
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container_end_page	3104
container_issue	13-14
container_start_page	3085
container_title	Biodiversity and conservation
container_volume	22
creator	Hickey, Jena R. Nackoney, Janet Nibbelink, Nathan P. Blake, Stephen Bonyenge, Aime Coxe, Sally Dupain, Jef Emetshu, Maurice Furuichi, Takeshi Grossmann, Falk Guislain, Patrick Hart, John Hashimoto, Chie Ikembelo, Bernard Ilambu, Omari Inogwabini, Bila-Isia Liengola, Innocent Lokasola, Albert Lotana Lushimba, Alain Maisels, Fiona Masselink, Joel Mbenzo, Valentin Mulavwa, Norbert Mbangia Naky, Pascal Ndunda, Nicolas Mwanza Nkumu, Pele Omasombo, Valentin Reinartz, Gay Edwards Rose, Robert Sakamaki, Tetsuya Strindberg, Samantha Takemoto, Hiroyuki Vosper, Ashley Kühl, Hjalmar S.
description	Habitat loss and hunting threaten bonobos ( Pan paniscus ), Endangered (IUCN) great apes endemic to lowland rainforests of the Democratic Republic of Congo. Conservation planning requires a current, data-driven, rangewide map of probable bonobo distribution and an understanding of key attributes of areas used by bonobos. We present a rangewide suitability model for bonobos based on a maximum entropy algorithm in which data associated with locations of bonobo nests helped predict suitable conditions across the species’ entire range. We systematically evaluated available biotic and abiotic factors, including a bonobo-specific forest fragmentation layer (forest edge density), and produced a final model revealing the importance of simple threat-based factors in a data poor environment. We confronted the issue of survey bias in presence-only models and devised a novel evaluation approach applicable to other taxa by comparing models built with data from geographically distinct sub-regions that had higher survey effort. The model’s classification accuracy was high (AUC = 0.82). Distance from agriculture and forest edge density best predicted bonobo occurrence with bonobo nests more likely to occur farther from agriculture and in areas of lower edge density. These results suggest that bonobos either avoid areas of higher human activity, fragmented forests, or both, and that humans reduce the effective habitat of bonobos. The model results contribute to an increased understanding of threats to bonobo populations, as well as help identify priority areas for future surveys and determine core bonobo protection areas.
doi_str_mv	10.1007/s10531-013-0572-7
format	Article
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Conservation planning requires a current, data-driven, rangewide map of probable bonobo distribution and an understanding of key attributes of areas used by bonobos. We present a rangewide suitability model for bonobos based on a maximum entropy algorithm in which data associated with locations of bonobo nests helped predict suitable conditions across the species’ entire range. We systematically evaluated available biotic and abiotic factors, including a bonobo-specific forest fragmentation layer (forest edge density), and produced a final model revealing the importance of simple threat-based factors in a data poor environment. We confronted the issue of survey bias in presence-only models and devised a novel evaluation approach applicable to other taxa by comparing models built with data from geographically distinct sub-regions that had higher survey effort. The model’s classification accuracy was high (AUC = 0.82). Distance from agriculture and forest edge density best predicted bonobo occurrence with bonobo nests more likely to occur farther from agriculture and in areas of lower edge density. These results suggest that bonobos either avoid areas of higher human activity, fragmented forests, or both, and that humans reduce the effective habitat of bonobos. 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Conservation planning requires a current, data-driven, rangewide map of probable bonobo distribution and an understanding of key attributes of areas used by bonobos. We present a rangewide suitability model for bonobos based on a maximum entropy algorithm in which data associated with locations of bonobo nests helped predict suitable conditions across the species’ entire range. We systematically evaluated available biotic and abiotic factors, including a bonobo-specific forest fragmentation layer (forest edge density), and produced a final model revealing the importance of simple threat-based factors in a data poor environment. We confronted the issue of survey bias in presence-only models and devised a novel evaluation approach applicable to other taxa by comparing models built with data from geographically distinct sub-regions that had higher survey effort. The model’s classification accuracy was high (AUC = 0.82). Distance from agriculture and forest edge density best predicted bonobo occurrence with bonobo nests more likely to occur farther from agriculture and in areas of lower edge density. These results suggest that bonobos either avoid areas of higher human activity, fragmented forests, or both, and that humans reduce the effective habitat of bonobos. 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conservation</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Hickey, Jena R.</au><au>Nackoney, Janet</au><au>Nibbelink, Nathan P.</au><au>Blake, Stephen</au><au>Bonyenge, Aime</au><au>Coxe, Sally</au><au>Dupain, Jef</au><au>Emetshu, Maurice</au><au>Furuichi, Takeshi</au><au>Grossmann, Falk</au><au>Guislain, Patrick</au><au>Hart, John</au><au>Hashimoto, Chie</au><au>Ikembelo, Bernard</au><au>Ilambu, Omari</au><au>Inogwabini, Bila-Isia</au><au>Liengola, Innocent</au><au>Lokasola, Albert Lotana</au><au>Lushimba, Alain</au><au>Maisels, Fiona</au><au>Masselink, Joel</au><au>Mbenzo, Valentin</au><au>Mulavwa, Norbert Mbangia</au><au>Naky, Pascal</au><au>Ndunda, Nicolas Mwanza</au><au>Nkumu, Pele</au><au>Omasombo, Valentin</au><au>Reinartz, Gay Edwards</au><au>Rose, Robert</au><au>Sakamaki, Tetsuya</au><au>Strindberg, Samantha</au><au>Takemoto, Hiroyuki</au><au>Vosper, Ashley</au><au>Kühl, Hjalmar S.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Human proximity and habitat fragmentation are key drivers of the rangewide bonobo distribution</atitle><jtitle>Biodiversity and conservation</jtitle><stitle>Biodivers Conserv</stitle><date>2013-12-01</date><risdate>2013</risdate><volume>22</volume><issue>13-14</issue><spage>3085</spage><epage>3104</epage><pages>3085-3104</pages><issn>0960-3115</issn><eissn>1572-9710</eissn><abstract>Habitat loss and hunting threaten bonobos ( Pan paniscus ), Endangered (IUCN) great apes endemic to lowland rainforests of the Democratic Republic of Congo. Conservation planning requires a current, data-driven, rangewide map of probable bonobo distribution and an understanding of key attributes of areas used by bonobos. We present a rangewide suitability model for bonobos based on a maximum entropy algorithm in which data associated with locations of bonobo nests helped predict suitable conditions across the species’ entire range. We systematically evaluated available biotic and abiotic factors, including a bonobo-specific forest fragmentation layer (forest edge density), and produced a final model revealing the importance of simple threat-based factors in a data poor environment. We confronted the issue of survey bias in presence-only models and devised a novel evaluation approach applicable to other taxa by comparing models built with data from geographically distinct sub-regions that had higher survey effort. The model’s classification accuracy was high (AUC = 0.82). Distance from agriculture and forest edge density best predicted bonobo occurrence with bonobo nests more likely to occur farther from agriculture and in areas of lower edge density. These results suggest that bonobos either avoid areas of higher human activity, fragmented forests, or both, and that humans reduce the effective habitat of bonobos. The model results contribute to an increased understanding of threats to bonobo populations, as well as help identify priority areas for future surveys and determine core bonobo protection areas.</abstract><cop>Dordrecht</cop><pub>Springer Netherlands</pub><doi>10.1007/s10531-013-0572-7</doi><tpages>20</tpages></addata></record>
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identifier	ISSN: 0960-3115
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issn	0960-3115 1572-9710
language	eng
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subjects	Abiotic factors Agriculture Animal, plant and microbial ecology Applied ecology Biodiversity Biological and medical sciences Biomedical and Life Sciences Climate Change/Climate Change Impacts Conservation Biology/Ecology Conservation, protection and management of environment and wildlife Ecology Ecosystem components Endangered & extinct species Endangered species Environmental degradation: ecosystems survey and restoration Exploitation and management of natural biological resources (hunting, fishing and exploited populations survey, etc.) Fundamental and applied biological sciences. Psychology General aspects Habitat destruction Habitat fragmentation Habitat loss Habitats Hunting Life Sciences Maximum entropy Monkeys & apes Nests Original Paper Protection and preservation Rain forests Rainforests Wildlife conservation
title	Human proximity and habitat fragmentation are key drivers of the rangewide bonobo distribution
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