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Life‐history strategies emerge from eco‐evolutionary constraints, where organisms allocate limited resources to growth, survival, and reproduction, resulting in trade‐offs such as the growth–survival trade‐off. There is still a limited understanding of whether and how disturbance regimes and successional stages might mediate such trade‐offs, with potential consequences for species population dynamics and community assembly. Here, we investigate how disturbances shape the growth–survival trade‐off by comparing early and late‐successional forest stands across the eastern United States. Using large‐scale sampling to capture the realised niche of 68 temperate species, we estimated species‐specific mortality probabilities under zero growth (a proxy for resource‐poor environments) applying a Bayesian multilevel modelling framework. We tested trade‐offs between these estimates and species' maximum growth capacity (a proxy for resource‐rich environments), within and across early and late‐successional stands. Overall, we found a weak growth–survival trade‐off among temperate tree species. No clear evidence of this trade‐off was found in early successional stands , while late‐successional stands showed a relatively stronger—though still weak—positive association between species' maximum growth and mortality under zero growth conditions. Disturbances therefore seem to mediate a filtering of tree life‐history strategies. Consequently, an increase in disturbance rates or changes in their regime could disrupt the growth–survival trade‐off in temperate forests. Life‐history strategies arise from eco‐evolutionary constraints and can lead to trade‐offs like tree growth and survival. While temperate tree species in late‐successional or low‐disturbance‐frequency forests do show a growth–survival trade‐off, this trade‐off is weak and was not found in early successional or high‐disturbance‐frequency stands, nor across all stages combined. Our findings highlight a role of disturbances in filtering life‐history strategies and their potential impact on forest dynamics and global carbon cycling but also a need to better understand the mediating processes of tree demographic trade‐offs.
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Geographic variation in growth and reproduction trade‐offs: Implications for future tree performance
Abstract Forests play a crucial role providing ecosystem services to humans, yet many aspects of forest dynamics remain unknown. One key area is how climate change might impact reproduction of tree species. While most studies have focused on predicting tree growth, understanding how reproduction may change will be vital to forecasting future forest communities. Of particular interest is the relationship between annual growth and reproductive output, which has often been hypothesized as a trade‐off between allocating resources to growth or to reproduction. Two proposed pathways of this trade‐off, resource accumulation, that is, storage of resources over time, and resource allocation, that is, same year allocation of resources to reproduction, have been widely explored in relation to masting events. It has also been proposed that there is no internal trade‐off between the two functions, but rather there exists one or more climate variables that are intrinsically linked to both, that is, the weather hypothesis. In this study, we use 15 years of dendrochronological data and seed rain collections from forest stands at two latitudes to determine whether one or more of these strategies are taking place in two commonly occurring tree species: red maple,Acer rubrum; and sugar maple,Acer saccharum. We found evidence of a trade‐off in both species. We also found a combination of strategies was the norm, and there appeared to be evidence to also support the weather hypothesis. However, in both species, the strategy which dictated the trade‐off switched between the northern and southern regions, indicating a degree of plasticity that could be beneficial under changing environmental conditions. By identifying the ways in which growth and reproduction are connected and how these connections vary between different populations, we can gain insights into how trees allocate resources in response to changing conditions.
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- Award ID(s):
- 2041933
- PAR ID:
- 10608597
- Publisher / Repository:
- Wiley
- Date Published:
- Journal Name:
- Ecosphere
- Volume:
- 15
- Issue:
- 6
- ISSN:
- 2150-8925
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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- Free Publicly Accessible Full Text
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Accepted Manuscript
- Journal Article:
- https://doi.org/10.1002/ecs2.4863
