Collectomics in plant biodiversity research − looking into the past to understand the present and shape the future

Global biodiversity is changing at unprecedented rates during the Anthropocene. Whereas current biodiversity patterns can be observed directly, information from the recent past is far less easily retrieved yet urgently needed to understand present observations and predict future developments. For pl...

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Published in	Basic and applied ecology Vol. 88; pp. 1 - 8
Main Authors	Bucher, Solveig Franziska, Gebauer, Sebastian, Grieb, Jonas, Körschens, Matthias, Müller, Jochen, Ritz, Christiane M., Rajendran, Rajapreethi, Weiland, Claus, Wesche, Karsten, Victor, Kristin, Römermann, Christine
Format	Journal Article
Language	English
Published	Elsevier GmbH 01.11.2025
Subjects	Anthropocene biodiversity loss Anthropocene epoch applied ecology automation biodiversity climate change computer vision Computer vision: Herbaria ecosystems Extended specimen Natural history collection phenology species Extended specimen Natural history collection Computer vision: Herbaria Anthropocene biodiversity loss
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Abstract	Global biodiversity is changing at unprecedented rates during the Anthropocene. Whereas current biodiversity patterns can be observed directly, information from the recent past is far less easily retrieved yet urgently needed to understand present observations and predict future developments. For plants, herbaria offer such a unique glimpse into the past. Evaluation of plant specimens allows determining a wide range of attributes like species identity, morphological and phenological traits and even signs of biotic interactions. Specimen’s labels convey data such as species identity (and identification history), date and locality of collection, as well as the surrounding biotic and abiotic environment. Current methodological developments in sensor technology and computer vision increasingly enable us to extract this information in a high throughput and automated way. Equally vast developments in data science allow to integrate data from other sources for much more comprehensive analyses than before. With millions of specimens already digitized and digitization schemes running in many institutions, we will be increasingly able to determine characteristics of species and link them via distribution records to large-scale climate change scenarios. This allows us to better predict species’ threat levels, and to develop scenarios on the consequences of biodiversity change for ecosystem functioning. The present contribution reviews recent herbaria research and describes potential avenues with respect to Museomics and the Extended Specimen, and we propose Collectomics as a new framework to unravel, understand, and cope with the Anthropocene biodiversity change.
AbstractList	Global biodiversity is changing at unprecedented rates during the Anthropocene. Whereas current biodiversity patterns can be observed directly, information from the recent past is far less easily retrieved yet urgently needed to understand present observations and predict future developments. For plants, herbaria offer such a unique glimpse into the past. Evaluation of plant specimens allows determining a wide range of attributes like species identity, morphological and phenological traits and even signs of biotic interactions. Specimen's labels convey data such as species identity (and identification history), date and locality of collection, as well as the surrounding biotic and abiotic environment. Current methodological developments in sensor technology and computer vision increasingly enable us to extract this information in a high throughput and automated way. Equally vast developments in data science allow to integrate data from other sources for much more comprehensive analyses than before. With millions of specimens already digitized and digitization schemes running in many institutions, we will be increasingly able to determine characteristics of species and link them via distribution records to large-scale climate change scenarios. This allows us to better predict species' threat levels, and to develop scenarios on the consequences of biodiversity change for ecosystem functioning. The present contribution reviews recent herbaria research and describes potential avenues with respect to Museomics and the Extended Specimen, and we propose Collectomics as a new framework to unravel, understand, and cope with the Anthropocene biodiversity change.
Author	Körschens, Matthias Bucher, Solveig Franziska Rajendran, Rajapreethi Weiland, Claus Wesche, Karsten Römermann, Christine Victor, Kristin Ritz, Christiane M. Gebauer, Sebastian Grieb, Jonas Müller, Jochen
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Snippet	Global biodiversity is changing at unprecedented rates during the Anthropocene. Whereas current biodiversity patterns can be observed directly, information...
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SubjectTerms	Anthropocene biodiversity loss Anthropocene epoch applied ecology automation biodiversity climate change computer vision Computer vision: Herbaria ecosystems Extended specimen Natural history collection phenology species
Title	Collectomics in plant biodiversity research − looking into the past to understand the present and shape the future
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