期刊
TREE PHYSIOLOGY
卷 42, 期 4, 页码 797-814出版社
OXFORD UNIV PRESS
DOI: 10.1093/treephys/tpab151
关键词
Florida coastal everglades; inundation; photosynthesis; porewater salinity; Rhizophora mangle; scrub mangroves; water levels
类别
资金
- Department of Interior-National Park Service [P16AC00032]
- Florida Coastal Everglades Long-Term Ecological Research (FCE-LTER) program - National Science Foundation [DEB-1832229]
This study investigated how mangrove-island micro-elevation affects tree physiology and found that inundation stress is the primary driver of leaf gas exchange rates in scrub mangroves.
We investigated how mangrove-island micro-elevation (i.e., habitat: center vs edge) affects tree physiology in a scrub mangrove forest of the southeastern Everglades. We measured leaf gas exchange rates of scrub Rhizophora mangle L. trees monthly during 2019, hypothesizing that CO2 assimilation (A(net)) and stomatal conductance (g(sw)) would decline with increasing water levels and salinity, expecting more considerable differences at mangrove-island edges than centers, where physiological stress is greatest. Water levels varied between 0 and 60 cm from the soil surface, rising during the wet season (May-October) relative to the dry season (November-April). Porewater salinity ranged from 15 to 30 p.p.t., being higher at mangrove-island edges than centers. A(net) maximized at 15.1 mu mol m(-2) s(-1), and g(sw) was typically <0.2 mol m(-2) s(-1), both of which were greater in the dry than the wet season and greater at island centers than edges, with seasonal variability being roughly equal to variation between habitats. After accounting for season and habitat, water level positively affected A(net) in both seasons but did not affect g(sw). Our findings suggest that inundation stress (i.e., water level) is the primary driver of variation in leaf gas exchange rates of scrub mangroves in the Florida Everglades, while also constraining A(net) more than g(sw). The interaction between inundation stress due to permanent flooding and habitat varies with season as physiological stress is alleviated at higher-elevation mangrove-island center habitats during the dry season. Freshwater inflows during the wet season increase water levels and inundation stress at higher-elevation mangrove-island centers, but also potentially alleviate salt and sulfide stress in soils. Thus, habitat heterogeneity leads to differences in nutrient and water acquisition and use between trees growing in island centers versus edges, creating distinct physiological controls on photosynthesis, which likely affect carbon flux dynamics of scrub mangroves in the Everglades.
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