Assessment of hammocks (petenes) resilience to sea level rise due to climate change in Mexico
There is a pressing need to assess resilience of coastal ecosystems against sea level rise. To develop appropriate response strategies against future climate disturbances, it is important to estimate the magnitude of disturbances that these ecosystems can absorb and to better understand their underlying processes. Hammocks (petenes) coastal ecosystems are highly vulnerable to sea level rise linked to climate change; their vulnerability is mainly due to its close relation with the sea through underground drainage in predominantly karstic soils. Hammocks are biologically importantbecause of their high diversity and restricted distribution. This study proposes a strategy to assess resilience of this coastal ecosystem when high-precision data are scarce. Approaches and methods used to derive ecological resilience maps of hammocks are described and assessed. Resilience models were built by incorporating and weighting appropriate indicators of persistence to assess hammocks resilience against flooding due to climate change at "Los Petenes Biosphere Reserve", in the Yucatán Peninsula, Mexico. According to the analysis, 25% of the study area is highly resilient (hot spots), whereas 51% has low resilience (cold spots). The most significant hot spot clusters of resilience were located in areas distant to the coastal zone, with indirect tidal influence, and consisted mostly of hammocks surrounded by basin mangrove and floodplain forest. This study revealed thatmulti-criteria analysis and the use of GIS for qualitative, semi-quantitative and statistical spatial analyses constitute a powerful tool to develop ecological resilience maps of coastal ecosystems that are highly vulnerable to sea level rise, even when high-precision data are not available. This method can be applied in other sites to help develop resilience analyses and decision-making processes for management and conservation of coastal areas worldwide.
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| Subjects: | Ecosistemas costeros, Cambio climático, Resiliencia ecológica, Evaluación del impacto ambiental, Artfrosur, |
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Ecosistemas costeros Cambio climático Resiliencia ecológica Evaluación del impacto ambiental Artfrosur Ecosistemas costeros Cambio climático Resiliencia ecológica Evaluación del impacto ambiental Artfrosur |
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Ecosistemas costeros Cambio climático Resiliencia ecológica Evaluación del impacto ambiental Artfrosur Ecosistemas costeros Cambio climático Resiliencia ecológica Evaluación del impacto ambiental Artfrosur Hernández Montilla, Mariana Carolina Maestra 13132 Martínez Morales, Miguel Ángel 1968-2020 Doctor autor/a 12506 Posada Vanegas, Gregorio autor/a 14781 De Jong, Bernardus Hendricus Jozeph Doctor autor/a 2038 Assessment of hammocks (petenes) resilience to sea level rise due to climate change in Mexico |
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There is a pressing need to assess resilience of coastal ecosystems against sea level rise. To develop appropriate response strategies against future climate disturbances, it is important to estimate the magnitude of disturbances that these ecosystems can absorb and to better understand their underlying processes. Hammocks (petenes) coastal ecosystems are highly vulnerable to sea level rise linked to climate change; their vulnerability is mainly due to its close relation with the sea through underground drainage in predominantly karstic soils. Hammocks are biologically importantbecause of their high diversity and restricted distribution. This study proposes a strategy to assess resilience of this coastal ecosystem when high-precision data are scarce. Approaches and methods used to derive ecological resilience maps of hammocks are described and assessed. Resilience models were built by incorporating and weighting appropriate indicators of persistence to assess hammocks resilience against flooding due to climate change at "Los Petenes Biosphere Reserve", in the Yucatán Peninsula, Mexico. According to the analysis, 25% of the study area is highly resilient (hot spots), whereas 51% has low resilience (cold spots). The most significant hot spot clusters of resilience were located in areas distant to the coastal zone, with indirect tidal influence, and consisted mostly of hammocks surrounded by basin mangrove and floodplain forest. This study revealed thatmulti-criteria analysis and the use of GIS for qualitative, semi-quantitative and statistical spatial analyses constitute a powerful tool to develop ecological resilience maps of coastal ecosystems that are highly vulnerable to sea level rise, even when high-precision data are not available. This method can be applied in other sites to help develop resilience analyses and decision-making processes for management and conservation of coastal areas worldwide. |
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Ecosistemas costeros Cambio climático Resiliencia ecológica Evaluación del impacto ambiental Artfrosur |
| author |
Hernández Montilla, Mariana Carolina Maestra 13132 Martínez Morales, Miguel Ángel 1968-2020 Doctor autor/a 12506 Posada Vanegas, Gregorio autor/a 14781 De Jong, Bernardus Hendricus Jozeph Doctor autor/a 2038 |
| author_facet |
Hernández Montilla, Mariana Carolina Maestra 13132 Martínez Morales, Miguel Ángel 1968-2020 Doctor autor/a 12506 Posada Vanegas, Gregorio autor/a 14781 De Jong, Bernardus Hendricus Jozeph Doctor autor/a 2038 |
| author_sort |
Hernández Montilla, Mariana Carolina Maestra 13132 |
| title |
Assessment of hammocks (petenes) resilience to sea level rise due to climate change in Mexico |
| title_short |
Assessment of hammocks (petenes) resilience to sea level rise due to climate change in Mexico |
| title_full |
Assessment of hammocks (petenes) resilience to sea level rise due to climate change in Mexico |
| title_fullStr |
Assessment of hammocks (petenes) resilience to sea level rise due to climate change in Mexico |
| title_full_unstemmed |
Assessment of hammocks (petenes) resilience to sea level rise due to climate change in Mexico |
| title_sort |
assessment of hammocks (petenes) resilience to sea level rise due to climate change in mexico |
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http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0162637 |
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AT hernandezmontillamarianacarolinamaestra13132 assessmentofhammockspetenesresiliencetosealevelriseduetoclimatechangeinmexico AT martinezmoralesmiguelangel19682020doctorautora12506 assessmentofhammockspetenesresiliencetosealevelriseduetoclimatechangeinmexico AT posadavanegasgregorioautora14781 assessmentofhammockspetenesresiliencetosealevelriseduetoclimatechangeinmexico AT dejongbernardushendricusjozephdoctorautora2038 assessmentofhammockspetenesresiliencetosealevelriseduetoclimatechangeinmexico |
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1809098779868004352 |
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KOHA-OAI-ECOSUR:295662024-08-07T11:26:29ZAssessment of hammocks (petenes) resilience to sea level rise due to climate change in Mexico Hernández Montilla, Mariana Carolina Maestra 13132 Martínez Morales, Miguel Ángel 1968-2020 Doctor autor/a 12506 Posada Vanegas, Gregorio autor/a 14781 De Jong, Bernardus Hendricus Jozeph Doctor autor/a 2038 textengThere is a pressing need to assess resilience of coastal ecosystems against sea level rise. To develop appropriate response strategies against future climate disturbances, it is important to estimate the magnitude of disturbances that these ecosystems can absorb and to better understand their underlying processes. Hammocks (petenes) coastal ecosystems are highly vulnerable to sea level rise linked to climate change; their vulnerability is mainly due to its close relation with the sea through underground drainage in predominantly karstic soils. Hammocks are biologically importantbecause of their high diversity and restricted distribution. This study proposes a strategy to assess resilience of this coastal ecosystem when high-precision data are scarce. Approaches and methods used to derive ecological resilience maps of hammocks are described and assessed. Resilience models were built by incorporating and weighting appropriate indicators of persistence to assess hammocks resilience against flooding due to climate change at "Los Petenes Biosphere Reserve", in the Yucatán Peninsula, Mexico. According to the analysis, 25% of the study area is highly resilient (hot spots), whereas 51% has low resilience (cold spots). The most significant hot spot clusters of resilience were located in areas distant to the coastal zone, with indirect tidal influence, and consisted mostly of hammocks surrounded by basin mangrove and floodplain forest. This study revealed thatmulti-criteria analysis and the use of GIS for qualitative, semi-quantitative and statistical spatial analyses constitute a powerful tool to develop ecological resilience maps of coastal ecosystems that are highly vulnerable to sea level rise, even when high-precision data are not available. This method can be applied in other sites to help develop resilience analyses and decision-making processes for management and conservation of coastal areas worldwide.There is a pressing need to assess resilience of coastal ecosystems against sea level rise. To develop appropriate response strategies against future climate disturbances, it is important to estimate the magnitude of disturbances that these ecosystems can absorb and to better understand their underlying processes. Hammocks (petenes) coastal ecosystems are highly vulnerable to sea level rise linked to climate change; their vulnerability is mainly due to its close relation with the sea through underground drainage in predominantly karstic soils. Hammocks are biologically importantbecause of their high diversity and restricted distribution. This study proposes a strategy to assess resilience of this coastal ecosystem when high-precision data are scarce. Approaches and methods used to derive ecological resilience maps of hammocks are described and assessed. Resilience models were built by incorporating and weighting appropriate indicators of persistence to assess hammocks resilience against flooding due to climate change at "Los Petenes Biosphere Reserve", in the Yucatán Peninsula, Mexico. According to the analysis, 25% of the study area is highly resilient (hot spots), whereas 51% has low resilience (cold spots). The most significant hot spot clusters of resilience were located in areas distant to the coastal zone, with indirect tidal influence, and consisted mostly of hammocks surrounded by basin mangrove and floodplain forest. This study revealed thatmulti-criteria analysis and the use of GIS for qualitative, semi-quantitative and statistical spatial analyses constitute a powerful tool to develop ecological resilience maps of coastal ecosystems that are highly vulnerable to sea level rise, even when high-precision data are not available. This method can be applied in other sites to help develop resilience analyses and decision-making processes for management and conservation of coastal areas worldwide.Adobe Acrobat profesional 6.0 o superiorEcosistemas costerosCambio climáticoResiliencia ecológicaEvaluación del impacto ambientalArtfrosurDisponible en líneaPlos Onehttp://journals.plos.org/plosone/article?id=10.1371/journal.pone.0162637Acceso en línea sin restricciones |