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Chronic warming stimulates growth of marsh grasses more than mangroves in a coastal wetland ecotone
Author(s) -
Coldren G. A.,
Barreto C. R.,
Wykoff D. D.,
Morrissey E. M.,
Langley J. A.,
Feller I. C.,
Chapman S. K.
Publication year - 2016
Publication title -
ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.144
H-Index - 294
eISSN - 1939-9170
pISSN - 0012-9658
DOI - 10.1002/ecy.1539
Subject(s) - mangrove , wetland , global warming , ecotone , environmental science , salt marsh , dominance (genetics) , ecology , biomass (ecology) , climate change , marsh , biology , shrub , biochemistry , gene
Increasing temperatures and a reduction in the frequency and severity of freezing events have been linked to species distribution shifts. Across the globe, mangrove ranges are expanding toward higher latitudes, likely due to diminishing frequency of freezing events associated with climate change. Continued warming will alter coastal wetland plant dynamics both above‐ and belowground, potentially altering plant capacity to keep up with sea level rise. We conducted an in situ warming experiment, in northeast Florida, to determine how increased temperature (+2°C) influences co‐occurring mangrove and salt marsh plants. Warming was achieved using passive warming with three treatment levels (ambient, shade control, warmed). Avicennia germinans , the black mangrove , exhibited no differences in growth or height due to experimental warming, but displayed a warming‐induced increase in leaf production (48%). Surprisingly, Distichlis spicata, the dominant salt marsh grass , increased in biomass (53% in 2013 and 70% in 2014), density (41%) and height (18%) with warming during summer months. Warming decreased plant root mass at depth and changed abundances of anaerobic bacterial taxa. Even while the poleward shift of mangroves is clearly controlled by the occurrences of severe freezes, chronic warming between these freeze events may slow the progression of mangrove dominance within ecotones.

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