Interactive effects between physical forces and ecosystem engineers on seed burial: a case study using Spartina anglica

Seed burial (i.e. vertical seed dispersal) has become increasingly valued for its relevance for seed fate and plant recruitment. While ecosystem engineers have been generally considered as the most important drivers of seed burial, the role of physical forces, such as wind or water flow, has been la...

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Veröffentlicht in:	Oikos 2016-01, Vol.125 (1), p.98-106
Hauptverfasser:	Zhu, Zhenchang, Cozzoli, Francesco, Chu, Nanyang, Salvador, Maria, Ysebaert, Tom, Zhang, Liquan, Herman, Peter M. J, Bouma, Tjeerd J
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Sprache:	eng
Schlagworte:	animals Biophysics buried seeds case studies ecosystem engineers Ecosystems Environmental engineering habitats pioneer species salt marshes seed dispersal Seeds sodium chloride Spartina anglica species recruitment water flow wind
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container_title	Oikos
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creator	Zhu, Zhenchang Cozzoli, Francesco Chu, Nanyang Salvador, Maria Ysebaert, Tom Zhang, Liquan Herman, Peter M. J Bouma, Tjeerd J
description	Seed burial (i.e. vertical seed dispersal) has become increasingly valued for its relevance for seed fate and plant recruitment. While ecosystem engineers have been generally considered as the most important drivers of seed burial, the role of physical forces, such as wind or water flow, has been largely overlooked. Using tidal habitats as a model system, and a combination of flume and mesocosm experiments, we investigated the effects of 1) currents, 2) benthic animals with different engineering activities and 3) their interplay on seed burial of a common salt marsh pioneer plant, Spartina anglica. Our results reveal that in such systems, water flow can be of equal or higher importance than ecosystem engineers for seed burial. For passive seed‐burying engineers (PSE), coupling their actions with currents produced synergistic seed burial effects, whereas the interactive effects were only additive for active seed‐burying engineers (ASE). This paper extends current understanding of seed burial and seed bank formation by revealing the need to incorporate physical forces into seed burial mechanisms. We provide the first empirical evidence that physical forces influence seed burial by synergistically interacting with ecosystem engineers, thus highlighting the role of biophysical interactions as important drivers for vertical seed movement.
doi_str_mv	10.1111/oik.02340
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subjects	animals Biophysics buried seeds case studies ecosystem engineers Ecosystems Environmental engineering habitats pioneer species salt marshes seed dispersal Seeds sodium chloride Spartina anglica species recruitment water flow wind
title	Interactive effects between physical forces and ecosystem engineers on seed burial: a case study using Spartina anglica
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