Hongxia Zhang scite author profile

Hongxia Zhang

2Publications

8Citation Statements Received

280Citation Statements Given

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Affiliations

Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences, Pacific Northwest National Laboratory

Publications

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The influence of increasing atmospheric CO₂, temperature, and vapor pressure deficit on seawater‐induced tree mortality

McDowell

Zhang

et al. 2022

New Phytologist

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Increasing seawater exposure is killing coastal trees globally, with expectations of accelerating mortality with rising sea levels. However, the impact of concomitant changes in atmospheric CO 2 concentration, temperature, and vapor pressure deficit (VPD) on seawater-induced tree mortality is uncertain.We examined the mechanisms of seawater-induced mortality under varying climate scenarios using a photosynthetic gain and hydraulic cost optimization model validated against observations in a mature stand of Sitka spruce (Picea sitchensis) trees in the Pacific Northwest, USA, that were dying from recent seawater exposure.The simulations matched well with observations of photosynthesis, transpiration, nonstructural carbohydrates concentrations, leaf water potential, the percentage loss of xylem conductivity, and stand-level mortality rates. The simulations suggest that seawater-induced mortality could decrease by c. 16.7% with increasing atmospheric CO 2 levels due to reduced risk of carbon starvation. Conversely, rising VPD could increase mortality by c. 5.6% because of increasing risk of hydraulic failure.Across all scenarios, seawater-induced mortality was driven by hydraulic failure in the first 2 yr after seawater exposure began, with carbon starvation becoming more important in subsequent years. Changing CO 2 and climate appear unlikely to have a significant impact on coastal tree mortality under rising sea levels.

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Modeling the mechanisms of conifer mortality under seawater exposure

et al. 2023

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Summary Relative sea level rise (SLR) increasingly impacts coastal ecosystems through the formation of ghost forests. To predict the future of coastal ecosystems under SLR and changing climate, it is important to understand the physiological mechanisms underlying coastal tree mortality and to integrate this knowledge into dynamic vegetation models. We incorporate the physiological effect of salinity and hypoxia in a dynamic vegetation model in the Earth system land model, and used the model to investigate the mechanisms of mortality of conifer forests on the west and east coast sites of USA, where trees experience different form of sea water exposure. Simulations suggest similar physiological mechanisms can result in different mortality patterns. At the east coast site that experienced severe increases in seawater exposure, trees loose photosynthetic capacity and roots rapidly, and both storage carbon and hydraulic conductance decrease significantly within a year. Over time, further consumption of storage carbon that leads to carbon starvation dominates mortality. At the west coast site that gradually exposed to seawater through SLR, hydraulic failure dominates mortality because root loss impacts on conductance are greater than the degree of storage carbon depletion. Measurements and modeling focused on understanding the physiological mechanisms of mortality is critical to reducing predictive uncertainty.

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Hongxia Zhang

The influence of increasing atmospheric CO₂, temperature, and vapor pressure deficit on seawater‐induced tree mortality

Modeling the mechanisms of conifer mortality under seawater exposure

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Hongxia Zhang

The influence of increasing atmospheric CO2, temperature, and vapor pressure deficit on seawater‐induced tree mortality

Modeling the mechanisms of conifer mortality under seawater exposure

Contact Info

Product

Resources

About

The influence of increasing atmospheric CO₂, temperature, and vapor pressure deficit on seawater‐induced tree mortality