Abstract
Climate change is reshaping global vegetation through its impacts on plant mortality, but recruitment creates the next generation of plants and will determine the structure and composition of future communities. Recruitment depends on mean seed production, but also on the interannual variability and among-plant synchrony in seed production, the phenomenon known as mast seeding. Thus, predicting the long-term response of global vegetation dynamics to climate change requires understanding the response of masting to changing climate. Recently, data and methods have become available allowing the first assessments of long-term changes in masting. Reviewing the literature, we evaluate evidence for a fingerprint of climate change on mast seeding and discuss the drivers and impacts of these changes. We divide our discussion into the main characteristics of mast seeding: interannual variation, synchrony, temporal autocorrelation and mast frequency. Data indicate that masting patterns are changing but the direction of that change varies, likely reflecting the diversity of proximate factors underlying masting across taxa. Experiments to understand the proximate mechanisms underlying masting, in combination with the analysis of long-term datasets, will enable us to understand this observed variability in the response of masting. This will allow us to predict future shifts in masting patterns, and consequently ecosystem impacts of climate change via its impacts on masting.This article is part of the theme issue ‘The ecology and evolution of synchronized seed production in plants’.
Highlights
The structure and composition of future vegetation depend on the impacts of climate change on plants’ mortality and on the processes determining recruitment, including seed production and establishment [1,2,3]
Instead, masting is a dynamic strategy that maximizes fitness based on varying allocation to reproduction [109]
Climate change may result in changes to whole-plant resource availability and to the relative allocation of those resources to reproduction and other resource sinks [106,107], but neither of these processes will automatically result in changes in masting patterns—with the exception of mean reproduction
Summary
The structure and composition of future vegetation depend on the impacts of climate change on plants’ mortality and on the processes determining recruitment, including seed production and establishment [1,2,3]. Increased investment in reproduction does not necessarily translate into higher individual fitness or population-level reproductive success when it is accompanied by changes in masting, as demonstrated by Bogdziewicz et al [8] They showed that mean seed production in UK beech woodlands increased significantly over the period 1980–2018 in association with warming summer temperatures. In mesic habitats, global climate change may reduce interannual variation in seed production by increasing carbon availability, but increase variation where water is limiting. This predicted variability in masting responses to climate change is currently poorly understood. We review these studies to search for evidence for a fingerprint of climate change on mast seeding, discuss the drivers and impacts, highlight challenges and suggest ways forward
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