The collapse of mangrove litterfall production following a climate-related forest loss in Brazil

Drought periods may change mangrove litterfall production through water deprivation and increasing tree evapotranspiration, but these impacts have been rarely estimated. In Brazil, an intense drought and strong winds impacted mangrove forests leading to mass tree mortality in 2016, suggesting that f...

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Published inMarine pollution bulletin Vol. 162; p. 111910
Main Authors Gomes, Luiz Eduardo de Oliveira, Vescovi, Lucas Carneiro, Bernardino, Angelo Fraga
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.01.2021
Elsevier BV
Subjects
Brackishwater environment
Brazil
Climate
Climate change
Drought
Drought period
Ecosystem
Estuaries
Estuarine ecosystems
Evapotranspiration
exports
Food chains
Food webs
Forest productivity
Forests
Litter fall
Litterfall carbon production
Mangrove swamps
Mangroves
Marine ecosystems
marine pollution
Nutrients
plant litter
Southeast Brazil
tree mortality
Trees
Water deprivation
Wetlands
Winds
Brazil
Climate change
Drought period
Litterfall carbon production
Southeast Brazil
Online AccessGet full text
ISSN0025-326X
1879-3363
1879-3363
DOI10.1016/j.marpolbul.2020.111910

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Abstract Drought periods may change mangrove litterfall production through water deprivation and increasing tree evapotranspiration, but these impacts have been rarely estimated. In Brazil, an intense drought and strong winds impacted mangrove forests leading to mass tree mortality in 2016, suggesting that forest productivity also declined rapidly. Fifteen months after the initial impact, we started to monitor and quantify litterfall production in paired transects from disturbed and undisturbed mangroves. The litterfall production of the undisturbed forests (575 ± 28 Kg C ha−1 y−1) was 31- to 3-fold higher than that at the disturbed mangrove forests (18 to 169 Kg C ha−1 y−1). The strong decline in litterfall production may have implications to the export of nutrients to estuarine ecosystems. Our baseline suggests that mangrove forests are greatly vulnerable to climate impacts and that the litterfall production collapse in dead mangrove forests may impair marine ecosystem food webs. [Display omitted] •Climate change can impact mangrove litterfall production in tropical estuaries•SE Brazil Rhizophora mangle litterfall production is over 575 Kg C ha−1 y−1•Mangrove mortality decreased litterfall production by over 31-fold•Lower mangrove production may decrease exports of carbon to estuaries
AbstractList Drought periods may change mangrove litterfall production through water deprivation and increasing tree evapotranspiration, but these impacts have been rarely estimated. In Brazil, an intense drought and strong winds impacted mangrove forests leading to mass tree mortality in 2016, suggesting that forest productivity also declined rapidly. Fifteen months after the initial impact, we started to monitor and quantify litterfall production in paired transects from disturbed and undisturbed mangroves. The litterfall production of the undisturbed forests (575 ± 28 Kg C ha-1 y-1) was 31- to 3-fold higher than that at the disturbed mangrove forests (18 to 169 Kg C ha-1 y-1). The strong decline in litterfall production may have implications to the export of nutrients to estuarine ecosystems. Our baseline suggests that mangrove forests are greatly vulnerable to climate impacts and that the litterfall production collapse in dead mangrove forests may impair marine ecosystem food webs.Drought periods may change mangrove litterfall production through water deprivation and increasing tree evapotranspiration, but these impacts have been rarely estimated. In Brazil, an intense drought and strong winds impacted mangrove forests leading to mass tree mortality in 2016, suggesting that forest productivity also declined rapidly. Fifteen months after the initial impact, we started to monitor and quantify litterfall production in paired transects from disturbed and undisturbed mangroves. The litterfall production of the undisturbed forests (575 ± 28 Kg C ha-1 y-1) was 31- to 3-fold higher than that at the disturbed mangrove forests (18 to 169 Kg C ha-1 y-1). The strong decline in litterfall production may have implications to the export of nutrients to estuarine ecosystems. Our baseline suggests that mangrove forests are greatly vulnerable to climate impacts and that the litterfall production collapse in dead mangrove forests may impair marine ecosystem food webs.
Drought periods may change mangrove litterfall production through water deprivation and increasing tree evapotranspiration, but these impacts have been rarely estimated. In Brazil, an intense drought and strong winds impacted mangrove forests leading to mass tree mortality in 2016, suggesting that forest productivity also declined rapidly. Fifteen months after the initial impact, we started to monitor and quantify litterfall production in paired transects from disturbed and undisturbed mangroves. The litterfall production of the undisturbed forests (575 ± 28 Kg C ha y ) was 31- to 3-fold higher than that at the disturbed mangrove forests (18 to 169 Kg C ha y ). The strong decline in litterfall production may have implications to the export of nutrients to estuarine ecosystems. Our baseline suggests that mangrove forests are greatly vulnerable to climate impacts and that the litterfall production collapse in dead mangrove forests may impair marine ecosystem food webs.
Drought periods may change mangrove litterfall production through water deprivation and increasing tree evapotranspiration, but these impacts have been rarely estimated. In Brazil, an intense drought and strong winds impacted mangrove forests leading to mass tree mortality in 2016, suggesting that forest productivity also declined rapidly. Fifteen months after the initial impact, we started to monitor and quantify litterfall production in paired transects from disturbed and undisturbed mangroves. The litterfall production of the undisturbed forests (575 ± 28 Kg C ha−1 y−1) was 31- to 3-fold higher than that at the disturbed mangrove forests (18 to 169 Kg C ha−1 y−1). The strong decline in litterfall production may have implications to the export of nutrients to estuarine ecosystems. Our baseline suggests that mangrove forests are greatly vulnerable to climate impacts and that the litterfall production collapse in dead mangrove forests may impair marine ecosystem food webs.
Drought periods may change mangrove litterfall production through water deprivation and increasing tree evapotranspiration, but these impacts have been rarely estimated. In Brazil, an intense drought and strong winds impacted mangrove forests leading to mass tree mortality in 2016, suggesting that forest productivity also declined rapidly. Fifteen months after the initial impact, we started to monitor and quantify litterfall production in paired transects from disturbed and undisturbed mangroves. The litterfall production of the undisturbed forests (575 ± 28 Kg C ha⁻¹ y⁻¹) was 31- to 3-fold higher than that at the disturbed mangrove forests (18 to 169 Kg C ha⁻¹ y⁻¹). The strong decline in litterfall production may have implications to the export of nutrients to estuarine ecosystems. Our baseline suggests that mangrove forests are greatly vulnerable to climate impacts and that the litterfall production collapse in dead mangrove forests may impair marine ecosystem food webs.
Drought periods may change mangrove litterfall production through water deprivation and increasing tree evapotranspiration, but these impacts have been rarely estimated. In Brazil, an intense drought and strong winds impacted mangrove forests leading to mass tree mortality in 2016, suggesting that forest productivity also declined rapidly. Fifteen months after the initial impact, we started to monitor and quantify litterfall production in paired transects from disturbed and undisturbed mangroves. The litterfall production of the undisturbed forests (575 ± 28 Kg C ha−1 y−1) was 31- to 3-fold higher than that at the disturbed mangrove forests (18 to 169 Kg C ha−1 y−1). The strong decline in litterfall production may have implications to the export of nutrients to estuarine ecosystems. Our baseline suggests that mangrove forests are greatly vulnerable to climate impacts and that the litterfall production collapse in dead mangrove forests may impair marine ecosystem food webs. [Display omitted] •Climate change can impact mangrove litterfall production in tropical estuaries•SE Brazil Rhizophora mangle litterfall production is over 575 Kg C ha−1 y−1•Mangrove mortality decreased litterfall production by over 31-fold•Lower mangrove production may decrease exports of carbon to estuaries
ArticleNumber 111910
Author Vescovi, Lucas Carneiro
Bernardino, Angelo Fraga
Gomes, Luiz Eduardo de Oliveira
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Keywords Climate change
Drought period
Litterfall carbon production
Southeast Brazil
Language English
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Snippet Drought periods may change mangrove litterfall production through water deprivation and increasing tree evapotranspiration, but these impacts have been rarely...
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StartPage 111910
SubjectTerms Brackishwater environment
Brazil
Climate
Climate change
Drought
Drought period
Ecosystem
Estuaries
Estuarine ecosystems
Evapotranspiration
exports
Food chains
Food webs
Forest productivity
Forests
Litter fall
Litterfall carbon production
Mangrove swamps
Mangroves
Marine ecosystems
marine pollution
Nutrients
plant litter
Southeast Brazil
tree mortality
Trees
Water deprivation
Wetlands
Winds
Title The collapse of mangrove litterfall production following a climate-related forest loss in Brazil
URI https://dx.doi.org/10.1016/j.marpolbul.2020.111910
https://www.ncbi.nlm.nih.gov/pubmed/33338926
https://www.proquest.com/docview/2502230704
https://www.proquest.com/docview/2471461802
https://www.proquest.com/docview/2552025335
Volume 162
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