1. Drought cuts back regeneration in logged tropical forests
- Author
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Reuben Nilus, Hamzah Tangki, Lan Qie, Elizabeth M Telford, Mike R Massam, Andy Hector, Robert M. Ewers, Natural Environment Research Council (NERC), and The British Council
- Subjects
POPULATION-DYNAMICS ,010504 meteorology & atmospheric sciences ,IMPACT ,Biodiversity ,Environmental Sciences & Ecology ,Rainforest ,Ecological succession ,010501 environmental sciences ,plant strategy ,01 natural sciences ,Forest restoration ,Meteorology & Atmospheric Sciences ,forest disturbance ,Ecosystem ,SEEDLINGS ,0105 earth and related environmental sciences ,General Environmental Science ,RESTORATION ,Biomass (ecology) ,geography.geographical_feature_category ,Science & Technology ,leaf trait ,Renewable Energy, Sustainability and the Environment ,Agroforestry ,Logging ,Public Health, Environmental and Occupational Health ,forest recovery ,plant functional types ,RECOVERY ,Old-growth forest ,Geography ,RAIN-FORESTS ,Physical Sciences ,community assembly ,C180 Ecology ,Life Sciences & Biomedicine ,Environmental Sciences - Abstract
Logged tropical forests represent a major opportunity for preserving biodiversity and sequestering carbon, playing a large role in meeting global forest restoration targets. Left alone, these ecosystems have been expected to undergo natural regeneration and succession towards old growth forests, but extreme drought events may challenge this process. While old growth forests possess a certain level of resilience, we lack understanding as to how logging may affect forest responses to drought. This study examines the drought–logging interaction in seedling dynamics within a landscape of logged and unlogged forests in Sabah Malaysia, based on 73 plots monitored before and after the 2015-16 El Niño drought. Drought increased seedling mortality in all forests, but the magnitude of this impact was modulated by logging intensity, with forests with lower canopy leaf area index (LAI) and above ground biomass (AGB) experiencing greater drought induced mortality. Moreover, community traits in more heavily logged forests shifted towards being more ruderal after drought, suggesting that the trajectory of forest succession had been reversed. These results indicate that with reoccurring strong droughts under a changing climate, logged forests that have had over half of their biomass removed may suffer permanently arrested succession. Targeted management interventions may therefore be necessary to lift the vulnerable forests above the biomass threshold.
- Published
- 2019