Condo or cuisine? The function of fine woody debris in driving decomposition, detritivores, and their predators.
Autor: | Benedetto NV; School of Biological Sciences, Louisiana Tech University, Ruston, Louisiana, USA., McClain CR; Department of Biology, University of Louisiana-Lafayette, Lafayette, Louisiana, USA., Clay NA; Department of Entomology and Plant Pathology, University of Arkansas, Fayetteville, Arkansas, USA. |
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Jazyk: | angličtina |
Zdroj: | Ecology [Ecology] 2024 Nov 20, pp. e4474. Date of Electronic Publication: 2024 Nov 20. |
DOI: | 10.1002/ecy.4474 |
Abstrakt: | Community structure and ecosystem function may be driven by the size or the energy within a given habitat, but these metrics (space and energy) are difficult to separate, especially in systems where the habitat itself is also food, such as detritus. Only a handful of studies have attempted to isolate potential mechanisms experimentally, which has left a notable knowledge gap in understanding the drivers of community structure and function. Here, we tested whether fine woody debris (FWD) affects leaf litter communities primarily as a source of space or energy. We used a crossed factor design to isolate the effects of FWD as space and energy, with four treatments: (1) no FWD, (2) only energy-providing FWD (sawdust), (3) only space-providing synthetic wood debris, and (4) a combination of both space and energy. We hypothesized that the highest levels of diversity, carnivore:detritivore ratio, and decomposition rate would occur on plots supplied with sawdust (representing energy), synthetic woody debris (representing space), or a combination of both, depending on the relative significance of FWD as a source of either energy or space. After 7 months, FWD as a source of energy but not space led to decreased decomposer abundance and richness. Conversely, increased proportion of carnivores and labile substrate decomposition was primarily driven by FWD as a source of space. However, the fastest decomposition of more recalcitrant substrates required both space and energy (additive), and the synergy of space and energy supported the greatest proportion of carnivores. These results suggest that the presence of FWD in forest ecosystems supports increased diversity and decomposition through a synergistic interaction of space and energy and the maintenance of deadwood like FWD in forest ecosystems can thus significantly contribute to forest ecosystem function. (© 2024 The Ecological Society of America.) |
Databáze: | MEDLINE |
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