2019
Journal Articles
1.
Dubois, M.; Gascuel, D.; Coll, M.; Claudet, J.
Recovery debts can be revealed by ecosystem network-based approaches Journal Article
In: Ecosystems, vol. 22, pp. 658–676, 2019, (Type: Journal Article).
Abstract | Links | BibTeX | Tags: climate change impacts, connectivity, coral reef, human impacts, network analysis, recovery
@article{dubois_recovery_2019,
title = {Recovery debts can be revealed by ecosystem network-based approaches},
author = {M. Dubois and D. Gascuel and M. Coll and J. Claudet},
doi = {10.1007/s10021-018-0294-5},
year = {2019},
date = {2019-01-01},
journal = {Ecosystems},
volume = {22},
pages = {658\textendash676},
abstract = {Ecosystems are increasingly disturbed by natural disturbances and human stressors. Understanding how a disturbance can propagate through an entire ecosystem and how induced changes can last after apparent recovery is key to guide management and ecosystem restoration strategies. Monitoring programs and impact assessment studies rely mostly on indicators based only on species relative abundance and biomass, potentially misinforming management efforts. Impacts on ecosystem structure and functioning, and subsequent delivery of ecosystem services, are too often overlooked. Here we use an ecosystem network approach to assess the recovery pathway and potential recovery debts of a coral reef ecosystem, following a pulse disturbance. We show that although species abundance and biomass indicators recovered in a decade after the perturbation, the ecosystem as a whole presented a recovery debt. The ecosystem structure lost complexity (became “food chain like”) and lost about 29% of its overall cycling efficiency and 9% of its transfer efficiency. Although the ecosystem trophic network in the fore reef may have maintained its general functioning, the ecosystem network in the lagoon, not directly exposed to the disturbance, presented a stronger recovery debt. Our results give new insights on how ecosystem network approaches can help identify ecosystem impacts and recovery pathways.},
note = {Type: Journal Article},
keywords = {climate change impacts, connectivity, coral reef, human impacts, network analysis, recovery},
pubstate = {published},
tppubtype = {article}
}
Ecosystems are increasingly disturbed by natural disturbances and human stressors. Understanding how a disturbance can propagate through an entire ecosystem and how induced changes can last after apparent recovery is key to guide management and ecosystem restoration strategies. Monitoring programs and impact assessment studies rely mostly on indicators based only on species relative abundance and biomass, potentially misinforming management efforts. Impacts on ecosystem structure and functioning, and subsequent delivery of ecosystem services, are too often overlooked. Here we use an ecosystem network approach to assess the recovery pathway and potential recovery debts of a coral reef ecosystem, following a pulse disturbance. We show that although species abundance and biomass indicators recovered in a decade after the perturbation, the ecosystem as a whole presented a recovery debt. The ecosystem structure lost complexity (became “food chain like”) and lost about 29% of its overall cycling efficiency and 9% of its transfer efficiency. Although the ecosystem trophic network in the fore reef may have maintained its general functioning, the ecosystem network in the lagoon, not directly exposed to the disturbance, presented a stronger recovery debt. Our results give new insights on how ecosystem network approaches can help identify ecosystem impacts and recovery pathways.
2015
Journal Articles
2.
Tecchio, S.; Coll, M.; Sarda, F.
Structure, functioning, and cumulative stressors of Mediterranean deep-sea ecosystems Journal Article
In: Progress in Oceanography, vol. 135, pp. 156–167, 2015.
BibTeX | Tags: climate change impacts, deep sea, human impacts, Mediterranean Sea, regional study
@article{tecchio_structure_2015,
title = {Structure, functioning, and cumulative stressors of Mediterranean deep-sea ecosystems},
author = {S. Tecchio and M. Coll and F. Sarda},
year = {2015},
date = {2015-01-01},
journal = {Progress in Oceanography},
volume = {135},
pages = {156--167},
keywords = {climate change impacts, deep sea, human impacts, Mediterranean Sea, regional study},
pubstate = {published},
tppubtype = {article}
}
2014
Book Sections
3.
Coll, M.; Steenbeek, J.; Palomera, I.; Sole, J.; Christensen, V.
Cumulative effects of environmental and human activities in the Southern Catalan Sea ecosystem (NW Mediterranean) associated with the Ebro Delta River Book Section
In: J., Piroddi Coll Heymans Villasante Christensen C M J J S V Steenbeek (Ed.): Ecopath 30 Years Conference Proceedings: Extended Abstracts. Fisheries Centre Research Reports 22(3) [ISSN 1198-6727]. 237 p., pp. 169–171, Fisheries Centre, University of British Columbia, 2014.
BibTeX | Tags: Catalan Sea, climate change impacts, human impacts, local study
@incollection{coll_cumulative_2014,
title = {Cumulative effects of environmental and human activities in the Southern Catalan Sea ecosystem (NW Mediterranean) associated with the Ebro Delta River},
author = {M. Coll and J. Steenbeek and I. Palomera and J. Sole and V. Christensen},
editor = {Piroddi Coll Heymans Villasante Christensen C M J J S V Steenbeek J.},
year = {2014},
date = {2014-01-01},
booktitle = {Ecopath 30 Years Conference Proceedings: Extended Abstracts. Fisheries Centre Research Reports 22(3) [ISSN 1198-6727]. 237 p.},
pages = {169--171},
address = {Fisheries Centre, University of British Columbia},
keywords = {Catalan Sea, climate change impacts, human impacts, local study},
pubstate = {published},
tppubtype = {incollection}
}
Contact
Ecopath International Initiative
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PIC 958090341
info@ecopathinternational.org
Ecopath International Initiative is a not-for-profit research organization
Photo credits
© Marta Coll
© Jeroen Steenbeek
© Jeroen Steenbeek