Life-history plasticity of intertidal salt marsh in response to sea level rise: Salinity and inundation modulate size-dependent flowering of Spartina alterniflora

Life-history plasticity of intertidal salt marsh in response to sea level rise: Salinity and inundation modulate size-dependent flowering of Spartina alterniflora

The life-history theory posits that the optimum threshold size for flowering determines the transition in resource allocation, resulting from trade-offs between reproduction, survival, and vegetative growth. The stresses such as drought and nutrient limit can induce flowering at smaller sizes in ter...

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Main Authors: Jiayu Wang, Xincong Chen, Yueyue Wang, Yasong Chen, Hao Wu, Serina S. Wittyngham, Matthew L. Kirwan, Yuanye Zhang, Wenwen Liu, Yihui Zhang
Format: Article
Language:English
Published: Elsevier 2025-08-01
Series:Ecological Indicators
Subjects:
Environmental gradient
Estuary
Global change
Marsh organ
Threshold size for flowering
Online Access:http://www.sciencedirect.com/science/article/pii/S1470160X25007204
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Summary:The life-history theory posits that the optimum threshold size for flowering determines the transition in resource allocation, resulting from trade-offs between reproduction, survival, and vegetative growth. The stresses such as drought and nutrient limit can induce flowering at smaller sizes in terrestrial ecosystems, but how the factors in coastal wetland influence the threshold size for flowering remains unclear. Here, we employed the widely distributed salt marsh plant, Spartina alterniflora, and established an in-situ mesocosm array along the estuarine gradient to manipulate sediment porewater salinity and inundation duration, the key factors jointly shaping species distribution of salt marsh community. We found that higher salinity reduced plant size and advanced flowering, whereas prolonged inundation increased plant size and delayed flowering. Consequently, the threshold size for flowering decreased with increasing salinity but increased with longer inundation duration. Furthermore, these abiotic factors affected the threshold size for flowering both directly and indirectly, with inundation duration emerging as the primary determinant. Given that salt marsh ecosystem productivity and functioning are threatened by the increasing salinity and inundation duration associated with sea-level rise, our findings suggest that shifts in plant life history strategies promote sexual reproduction for regeneration and may contribute to the ecosystem resilience under global change.
ISSN:1470-160X

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