The long-term restoration of ecosystem complexity
Multiple large-scale restoration strategies are emerging globally to counteract ecosystem degradation and biodiversity loss. However, restoration often remains insufficient to offset that loss. To address this challenge, we propose to focus restoration science on the long-term (centuries to millenni...
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| Published in | Nature ecology & evolution Vol. 4; no. 5; pp. 676 - 685 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
01.05.2020
Nature Publishing Group Nature |
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| Online Access | Get full text |
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| Abstract | Multiple large-scale restoration strategies are emerging globally to counteract ecosystem degradation and biodiversity loss. However, restoration often remains insufficient to offset that loss. To address this challenge, we propose to focus restoration science on the long-term (centuries to millennia) re-assembly of degraded ecosystem complexity integrating interaction network and evolutionary potential approaches. This approach provides insights into eco-evolutionary feedbacks determining the structure, functioning and stability of recovering ecosystems. Eco-evolutionary feedbacks may help to understand changes in the adaptive potential after disturbance of metacommunity hub species with core structural and functional roles for their use in restoration. Those changes can be studied combining a restoration genomics approach based on whole-genome sequencing with replicated space-for-time substitutions linking changes in genetic variation to functions or traits relevant to the establishment of evolutionarily resilient communities. This approach may set the knowledge basis for future tools to accelerate the restoration of ecosystems able to adapt to ongoing global changes.
Ecosystem restoration needs to incorporate network and evolutionary approaches to focus on long-term recovery of the complexity of ecosystems. |
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| AbstractList | Multiple large-scale restoration strategies are emerging globally to counteract ecosystem degradation and biodiversity loss. However, restoration often remains insufficient to offset that loss. To address this challenge, we propose to focus restoration science on the long-term (centuries to millennia) re-assembly of degraded ecosystem complexity integrating interaction network and evolutionary potential approaches. This approach provides insights into eco-evolutionary feedbacks determining the structure, functioning and stability of recovering ecosystems. Eco-evolutionary feedbacks may help to understand changes in the adaptive potential after disturbance of metacommunity hub species with core structural and functional roles for their use in restoration. Those changes can be studied combining a restoration genomics approach based on whole-genome sequencing with replicated space-for-time substitutions linking changes in genetic variation to functions or traits relevant to the establishment of evolutionarily resilient communities. This approach may set the knowledge basis for future tools to accelerate the restoration of ecosystems able to adapt to ongoing global changes. Multiple large-scale restoration strategies are emerging globally to counteract ecosystem degradation and biodiversity loss. However, restoration often remains insufficient to offset that loss. To address this challenge, we propose to focus restoration science on the long-term (centuries to millennia) re-assembly of degraded ecosystem complexity integrating interaction network and evolutionary potential approaches. This approach provides insights into eco-evolutionary feedbacks determining the structure, functioning and stability of recovering ecosystems. Eco-evolutionary feedbacks may help to understand changes in the adaptive potential after disturbance of metacommunity hub species with core structural and functional roles for their use in restoration. Those changes can be studied combining a restoration genomics approach based on whole-genome sequencing with replicated space-for-time substitutions linking changes in genetic variation to functions or traits relevant to the establishment of evolutionarily resilient communities. This approach may set the knowledge basis for future tools to accelerate the restoration of ecosystems able to adapt to ongoing global changes.Ecosystem restoration needs to incorporate network and evolutionary approaches to focus on long-term recovery of the complexity of ecosystems. Multiple large-scale restoration strategies are emerging globally to counteract ecosystem degradation and biodiversity loss. However, restoration often remains insufficient to offset that loss. To address this challenge, we propose to focus restoration science on the long-term (centuries to millennia) re-assembly of degraded ecosystem complexity integrating interaction network and evolutionary potential approaches. This approach provides insights into eco-evolutionary feedbacks determining the structure, functioning and stability of recovering ecosystems. Eco-evolutionary feedbacks may help to understand changes in the adaptive potential after disturbance of metacommunity hub species with core structural and functional roles for their use in restoration. Those changes can be studied combining a restoration genomics approach based on whole-genome sequencing with replicated space-for-time substitutions linking changes in genetic variation to functions or traits relevant to the establishment of evolutionarily resilient communities. This approach may set the knowledge basis for future tools to accelerate the restoration of ecosystems able to adapt to ongoing global changes.Multiple large-scale restoration strategies are emerging globally to counteract ecosystem degradation and biodiversity loss. However, restoration often remains insufficient to offset that loss. To address this challenge, we propose to focus restoration science on the long-term (centuries to millennia) re-assembly of degraded ecosystem complexity integrating interaction network and evolutionary potential approaches. This approach provides insights into eco-evolutionary feedbacks determining the structure, functioning and stability of recovering ecosystems. Eco-evolutionary feedbacks may help to understand changes in the adaptive potential after disturbance of metacommunity hub species with core structural and functional roles for their use in restoration. Those changes can be studied combining a restoration genomics approach based on whole-genome sequencing with replicated space-for-time substitutions linking changes in genetic variation to functions or traits relevant to the establishment of evolutionarily resilient communities. This approach may set the knowledge basis for future tools to accelerate the restoration of ecosystems able to adapt to ongoing global changes. Multiple large-scale restoration strategies are emerging globally to counteract ecosystem degradation and biodiversity loss. However, restoration often remains insufficient to offset that loss. To address this challenge, we propose to focus restoration science on the long-term (centuries to millennia) re-assembly of degraded ecosystem complexity integrating interaction network and evolutionary potential approaches. This approach provides insights into eco-evolutionary feedbacks determining the structure, functioning and stability of recovering ecosystems. Eco-evolutionary feedbacks may help to understand changes in the adaptive potential after disturbance of metacommunity hub species with core structural and functional roles for their use in restoration. Those changes can be studied combining a restoration genomics approach based on whole-genome sequencing with replicated space-for-time substitutions linking changes in genetic variation to functions or traits relevant to the establishment of evolutionarily resilient communities. This approach may set the knowledge basis for future tools to accelerate the restoration of ecosystems able to adapt to ongoing global changes. Ecosystem restoration needs to incorporate network and evolutionary approaches to focus on long-term recovery of the complexity of ecosystems. |
| Author | Alberdi, Antton Montoya, Daniel Rodríguez-Uña, Asun Moreno-Mateos, David Morriën, Elly van der Putten, Wim H. |
| Author_xml | – sequence: 1 givenname: David orcidid: 0000-0002-1539-5848 surname: Moreno-Mateos fullname: Moreno-Mateos, David email: dmoreno@gsd.harvard.edu organization: Department of Landscape Architecture, Graduate School of Design, Harvard University, Basque Centre for Climate Change – BC3, IKERBASQUE, Basque Foundation for Science – sequence: 2 givenname: Antton surname: Alberdi fullname: Alberdi, Antton organization: The GLOBE Institute, Faculty of Health and Medical Sciences, University of Copenhagen – sequence: 3 givenname: Elly surname: Morriën fullname: Morriën, Elly organization: Department of Ecosystem and Landscape Dynamics, Institute of Biodiversity and Ecosystem Dynamics (IBED-ELD), University of Amsterdam, Department of Terrestrial Ecology, Netherlands Institute of Ecology – sequence: 4 givenname: Wim H. orcidid: 0000-0002-9341-4442 surname: van der Putten fullname: van der Putten, Wim H. organization: Department of Terrestrial Ecology, Netherlands Institute of Ecology, Laboratory of Nematology, Wageningen University – sequence: 5 givenname: Asun surname: Rodríguez-Uña fullname: Rodríguez-Uña, Asun organization: Basque Centre for Climate Change – BC3 – sequence: 6 givenname: Daniel orcidid: 0000-0002-5521-5282 surname: Montoya fullname: Montoya, Daniel organization: Centre for Biodiversity Theory and Modelling, Theoretical and Experimental Ecology Station, CNRS, 2 route du CNRS |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/32284582$$D View this record in MEDLINE/PubMed https://ut3-toulouseinp.hal.science/hal-03043721$$DView record in HAL |
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| PublicationPlace | London |
| PublicationPlace_xml | – name: London – name: England |
| PublicationTitle | Nature ecology & evolution |
| PublicationTitleAbbrev | Nat Ecol Evol |
| PublicationTitleAlternate | Nat Ecol Evol |
| PublicationYear | 2020 |
| Publisher | Nature Publishing Group UK Nature Publishing Group Nature |
| Publisher_xml | – name: Nature Publishing Group UK – name: Nature Publishing Group – name: Nature |
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| Title | The long-term restoration of ecosystem complexity |
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