AI Article Synopsis
- Spatial synchrony in seed production of European beech shows stronger alignment during periods of seed scarcity rather than during peak years.
- High interannual variation in seed production, known as masting, leads to synchronous patterns across large distances, with significant effects on resource availability.
- The study found that seed scarcity is widespread across populations up to 1800 km apart, while mast peaks are synchronized over distances up to 1000 km, indicating that food shortages can have amplified consequences on ecosystems and climate dynamics.
Article Abstract
Spatial synchrony may be tail-dependent, meaning it is stronger for peaks rather than troughs, or vice versa. High interannual variation in seed production in perennial plants, called masting, can be synchronized at subcontinental scales, triggering extensive resource pulses or famines. We used data from 99 populations of European beech (Fagus sylvatica) to examine whether masting synchrony differs between mast peaks and years of seed scarcity. Our results revealed that seed scarcity occurs simultaneously across the majority of the species range, extending to populations separated by distances up to 1800 km. Mast peaks were spatially synchronized at distances up to 1000 km and synchrony was geographically concentrated in northeastern Europe. Extensive synchrony in the masting lower tail means that famines caused by beech seed scarcity are amplified by their extensive spatial synchrony, with diverse consequences for food web functioning and climate change biology.
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| http://dx.doi.org/10.1111/ele.14474 | DOI Listing |
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