Surrounding species diversity improves subtropical seedlings’ carbon dynamics

Salmon, Yann; Li, Xuefei; Yang, Bo; Ma, Keping; Siegwolf, Rolf; Schmid, Bernhard

doi:10.1002/ece3.4225

Cited by 5 publications

(2 citation statements)

References 76 publications

(120 reference statements)

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“…Competitive or facilitative interactions with other trees are expected to influence the changes in phloem transport (Salmon et al 2018) and allocation under drought based on optimal partitioning models of biomass allocation (Franklin et al 2012). However, experimental data on carbon allocation under both competition and drought stress are extremely rare (for a rare example of such study see Hommel et al 2016).…”

Section: Research Frontiers About the Impact Of Phloem Response To Drmentioning

confidence: 99%

Drought impacts on tree phloem: from cell-level responses to ecological significance

et al. 2019

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On-going climate change is increasing the risk of drought stress across large areas worldwide. Such drought events decrease ecosystem productivity and have been increasingly linked to tree mortality. Understanding how trees respond to water shortage is key to predicting the future of ecosystem functions. Phloem is at the core of the tree functions, moving resources such as non-structural carbohydrates, nutrients, and defence and information molecules across the whole plant. Phloem function and ability to transport resources is tightly controlled by the balance of carbon and water fluxes within the tree. As such, drought is expected to impact phloem function by decreasing the amount of available water and new photoassimilates. Yet, the effect of drought on the phloem has received surprisingly little attention in the last decades. Here we review existing knowledge on drought impacts on phloem transport from loading and unloading processes at cellular level to possible effects on long-distance transport and consequences to ecosystems via ecophysiological feedbacks. We also point to new research frontiers that need to be explored to improve our understanding of phloem function under drought. In particular, we show how phloem transport is affected differently by increasing drought intensity, from no response to a slowdown, and explore how severe drought might actually disrupt the phloem transport enough to threaten tree survival. Because transport of resources affects other organisms interacting with the tree, we also review the ecological consequences of phloem response to drought and especially predatory, mutualistic and competitive relations. Finally, as phloem is the main path for carbon from sources to sink, we show how drought can affect biogeochemical cycles through changes in phloem transport. Overall, existing knowledge is consistent with the hypotheses that phloem response to drought matters for understanding tree and ecosystem function. However, future research on a large range of species and ecosystems is urgently needed to gain a comprehensive understanding of the question.

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Section: Research Frontiers About the Impact Of Phloem Response To Drmentioning

confidence: 99%

Drought impacts on tree phloem: from cell-level responses to ecological significance

et al. 2019

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“…Conversely, water savers can reduce this risk but may face carbon starvation under prolonged droughts 28 even though starvation is less ubiquitous than cavitation 47 . These contrasting stomatal control strategies themselves may induce strong inter-annual changes in tree growth while also determining the water availability in mixed-stands through soil water partitioning between co-existing species 48,49 . In tree neighbourhoods comprising species with different stomatal control strategies, water spenders may benefit from soil water left by their water-saving neighbours during drought, while water savers may capitalize on improved soil water conditions after a drought due to their potentially faster drought recovery 48 .…”

Section: Hydraulic Diversity and Stabilitymentioning

confidence: 99%

Hydraulic diversity stabilizes productivity in a large-scale subtropical tree biodiversity experiment

Schnabel

Liu

Kunz

et al. 2021

Preprint

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Extreme climatic events threaten forests and their climate mitigation potential globally. Understanding the drivers promoting ecosystems stability is therefore considered crucial to mitigate adverse climate change effects on forests. Here, we use structural equation models to explain how tree species richness, asynchronous species dynamics and diversity in hydraulic traits affect the stability of forest productivity along an experimentally manipulated biodiversity gradient ranging from 1 to 24 tree species. Tree species richness improved stability by increasing species asynchrony. That is at higher species richness, inter-annual variation in productivity among tree species buffered the community against stress-related productivity declines. This effect was mediated by the diversity of species’ hydraulic traits in relation to drought tolerance and stomatal control, but not the community-weighted means of these traits. Our results demonstrate important mechanisms by which tree species richness stabilizes forest productivity, thus emphasizing the importance of hydraulically diverse, mixed-species forests to adapt to climate change.

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Biodiversity and Ecosystem Services in Managed Ecosystems

Schmid

Schöb

2022

The Ecological and Societal Consequences of Biodiversity Loss

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Surrounding species diversity improves subtropical seedlings’ carbon dynamics

Cited by 5 publications

References 76 publications

Drought impacts on tree phloem: from cell-level responses to ecological significance

Drought impacts on tree phloem: from cell-level responses to ecological significance

Hydraulic diversity stabilizes productivity in a large-scale subtropical tree biodiversity experiment

Biodiversity and Ecosystem Services in Managed Ecosystems

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