Global impoverishment of natural vegetation revealed by dark diversity

IF 48.5 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Nature Pub Date : 2025-04-02 DOI:10.1038/s41586-025-08814-5

Meelis Pärtel, Riin Tamme, Carlos P. Carmona, Kersti Riibak, Mari Moora, Jonathan A. Bennett, Alessandro Chiarucci, Milan Chytrý, Francesco de Bello, Ove Eriksson, Susan Harrison, Robert John Lewis, Angela T. Moles, Maarja Öpik, Jodi N. Price, Vistorina Amputu, Diana Askarizadeh, Zohreh Atashgahi, Isabelle Aubin, Francisco M. Azcárate, Matthew D. Barrett, Maral Bashirzadeh, Zoltán Bátori, Natalie Beenaerts, Kolja Bergholz, Kristine Birkeli, Idoia Biurrun, José M. Blanco-Moreno, Kathryn J. Bloodworth, Laura Boisvert-Marsh, Bazartseren Boldgiv, Pedro H. S. Brancalion, Francis Q. Brearley, Charlotte Brown, C. Guillermo Bueno, Gabriella Buffa, James F. Cahill, Juan A. Campos, Giacomo Cangelmi, Michele Carbognani, Christopher Carcaillet, Bruno E. L. Cerabolini, Richard Chevalier, Jan S. Clavel, José M. Costa, Sara A. O. Cousins, Jan Čuda, Mariana Dairel, Michele Dalle Fratte, Alena Danilova, John Davison, Balázs Deák, Silvia Del Vecchio, Iwona Dembicz, Jürgen Dengler, Jiri Dolezal, Xavier Domene, Miroslav Dvorsky, Hamid Ejtehadi, Lucas Enrico, Dmitrii Epikhin, Anu Eskelinen, Franz Essl, Gaohua Fan, Edy Fantinato, Fatih Fazlioglu, Eduardo Fernández-Pascual, Arianna Ferrara, Alessandra Fidelis, Markus Fischer, Maren Flagmeier, T’ai G. W. Forte, Lauchlan H. Fraser, Junichi Fujinuma, Fernando F. Furquim, Berle Garris, Heath W. Garris, Melisa A. Giorgis, Gianpietro Giusso del Galdo, Ana González-Robles, Megan K. Good, Moisès Guardiola, Riccardo Guarino, Irene Guerrero, Joannès Guillemot, Behlül Güler, Yinjie Guo, Stef Haesen, Martin Hejda, Ruben H. Heleno, Toke T. Høye, Richard Hrivnák, Yingxin Huang, John T. Hunter, Dmytro Iakushenko, Ricardo Ibáñez, Nele Ingerpuu, Severin D. H. Irl, Eva Janíková, Florian Jansen, Florian Jeltsch, Anke Jentsch, Borja Jiménez-Alfaro, Madli Jõks, Mohammad H. Jouri, Sahar Karami, Negin Katal, András Kelemen, Bulat I. Khairullin, Anzar A. Khuroo, Kimberly J. Komatsu, Marie Konečná, Ene Kook, Lotte Korell, Natalia Koroleva, Kirill A. Korznikov, Maria V. Kozhevnikova, Łukasz Kozub, Lauri Laanisto, Helena Lager, Vojtech Lanta, Romina G. Lasagno, Jonas J. Lembrechts, Liping Li, Aleš Lisner, Houjia Liu, Kun Liu, Xuhe Liu, Manuel Esteban Lucas-Borja, Kristin Ludewig, Katalin Lukács, Jona Luther-Mosebach, Petr Macek, Michela Marignani, Richard Michalet, Tamás Miglécz, Jesper Erenskjold Moeslund, Karlien Moeys, Daniel Montesinos, Eduardo Moreno-Jiménez, Ivan Moysiyenko, Ladislav Mucina, Miriam Muñoz-Rojas, Raytha A. Murillo, Sylvia M. Nambahu, Lena Neuenkamp, Signe Normand, Arkadiusz Nowak, Paloma Nuche, Tatjana Oja, Vladimir G. Onipchenko, Kalina L. Pachedjieva, Bruno Paganeli, Begoña Peco, Ana M. L. Peralta, Aaron Pérez-Haase, Pablo L. Peri, Alessandro Petraglia, Gwendolyn Peyre, Pedro Antonio Plaza-Álvarez, Jan Plue, Honor C. Prentice, Vadim E. Prokhorov, Dajana Radujković, Soroor Rahmanian, Triin Reitalu, Michael Ristow, Agnès A. Robin, Ana Belén Robles, Daniel A. Rodríguez Ginart, Raúl Román, Ruben E. Roos, Leonardo Rosati, Jiří Sádlo, Karina Salimbayeva, Rut Sánchez de Dios, Khaliun Sanchir, Cornelia Sattler, John D. Scasta, Ute Schmiedel, Julian Schrader, Nick L. Schultz, Giacomo Sellan, Josep M. Serra-Diaz, Giulia Silan, Hana Skálová, Nadiia Skobel, Judit Sonkoly, Kateřina Štajerová, Ivana Svitková, Sebastian Świerszcz, Andrew J. Tanentzap, Fallon M. Tanentzap, Rubén Tarifa, Pablo Tejero, Dzhamal K. Tekeev, Michael Tholin, Ruben S. Thormodsæter, Yichen Tian, Alla Tokaryuk, Csaba Tölgyesi, Marcello Tomaselli, Enrico Tordoni, Péter Török, Béla Tóthmérész, Aurèle Toussaint, Blaise Touzard, Diego P. F. Trindade, James L. Tsakalos, Sevda Türkiş, Enrique Valencia, Mercedes Valerio, Orsolya Valkó, Koenraad Van Meerbeek, Vigdis Vandvik, Jesus Villellas, Risto Virtanen, Michaela Vítková, Martin Vojík, Andreas von Hessberg, Jonathan von Oppen, Viktoria Wagner, Ji-Zhong Wan, Chun-Jing Wang, Sajad A. Wani, Lina Weiss, Tricia Wevill, Sa Xiao, Oscar Zárate Martínez, Martin Zobel

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Jouri, Sahar Karami, Negin Katal, András Kelemen, Bulat I. Khairullin, Anzar A. Khuroo, Kimberly J. Komatsu, Marie Konečná, Ene Kook, Lotte Korell, Natalia Koroleva, Kirill A. Korznikov, Maria V. Kozhevnikova, Łukasz Kozub, Lauri Laanisto, Helena Lager, Vojtech Lanta, Romina G. Lasagno, Jonas J. Lembrechts, Liping Li, Aleš Lisner, Houjia Liu, Kun Liu, Xuhe Liu, Manuel Esteban Lucas-Borja, Kristin Ludewig, Katalin Lukács, Jona Luther-Mosebach, Petr Macek, Michela Marignani, Richard Michalet, Tamás Miglécz, Jesper Erenskjold Moeslund, Karlien Moeys, Daniel Montesinos, Eduardo Moreno-Jiménez, Ivan Moysiyenko, Ladislav Mucina, Miriam Muñoz-Rojas, Raytha A. Murillo, Sylvia M. Nambahu, Lena Neuenkamp, Signe Normand, Arkadiusz Nowak, Paloma Nuche, Tatjana Oja, Vladimir G. Onipchenko, Kalina L. Pachedjieva, Bruno Paganeli, Begoña Peco, Ana M. L. Peralta, Aaron Pérez-Haase, Pablo L. Peri, Alessandro Petraglia, Gwendolyn Peyre, Pedro Antonio Plaza-Álvarez, Jan Plue, Honor C. Prentice, Vadim E. 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Abstract

Anthropogenic biodiversity decline threatens the functioning of ecosystems and the many benefits they provide to humanity1. As well as causing species losses in directly affected locations, human influence might also reduce biodiversity in relatively unmodified vegetation if far-reaching anthropogenic effects trigger local extinctions and hinder recolonization. Here we show that local plant diversity is globally negatively related to the level of anthropogenic activity in the surrounding region. Impoverishment of natural vegetation was evident only when we considered community completeness: the proportion of all suitable species in the region that are present at a site. To estimate community completeness, we compared the number of recorded species with the dark diversity—ecologically suitable species that are absent from a site but present in the surrounding region2. In the sampled regions with a minimal human footprint index, an average of 35% of suitable plant species were present locally, compared with less than 20% in highly affected regions. Besides having the potential to uncover overlooked threats to biodiversity, dark diversity also provides guidance for nature conservation. Species in the dark diversity remain regionally present, and their local populations might be restored through measures that improve connectivity between natural vegetation fragments and reduce threats to population persistence. A comparison of alpha diversity (number of plant species) and dark diversity (species that are currently absent from a site despite being ecologically suitable) demonstrates the negative effects of regional-scale anthropogenic activity on plant diversity.

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暗多样性揭示的全球自然植被贫瘠

人为造成的生物多样性下降威胁到生态系统的功能及其给人类带来的诸多好处。除了在直接受影响的地点造成物种损失外，如果深远的人为影响引发局部灭绝并阻碍重新定殖，人类影响还可能减少相对未改变植被的生物多样性。研究表明，在全球范围内，当地植物多样性与周边地区的人类活动水平呈负相关。只有当我们考虑群落完整性时，自然植被的贫瘠才会很明显：群落完整性是指该地区所有合适物种在一个地点出现的比例。为了评估群落的完整性，我们将记录的物种数量与暗多样性（dark diversity）进行了比较，暗多样性是指在一个地点不存在但在周围地区存在的生态适宜物种2。在人类足迹指数最小的取样地区，当地平均存在35%的适宜植物物种，而在受影响严重的地区，这一比例不到20%。除了有可能发现被忽视的生物多样性威胁外，黑暗多样性还为自然保护提供了指导。暗多样性的物种仍然存在区域性，通过改善自然植被碎片之间的连通性和减少对种群持久性的威胁，可以恢复其局部种群。

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来源期刊

Nature 综合性期刊-综合性期刊

CiteScore

90.00

自引率

1.20%

发文量

3652

审稿时长

3 months

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