WETLAND PLANT DECOMPOSITION UNDER DIFFERENT NUTRIENT CONDITIONS: WHAT IS MORE IMPORTANT, LITTER QUALITY OR SITE QUALITY?

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dc.contributor.author Rejmánková E.
dc.contributor.author Houdková K.
dc.date.accessioned 2024-09-20T06:16:35Z
dc.date.available 2024-09-20T06:16:35Z
dc.date.issued 2006
dc.identifier https://www.elibrary.ru/item.asp?id=52640705
dc.identifier.citation Biogeochemistry, 2006, 80, 3, 245-262
dc.identifier.issn 0168-2563
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/45177
dc.description.abstract Plants in nutrient poor environments are often characterized by high nutrient resorption resulting in poor litter quality and, consequently, slow decomposition. We used oligotrophic, P-limited herbaceous wetlands of northern Belize as a model system, on which to document and explain how changes in nutrient content along a salinity gradient affect decomposition rates of macrophytes. In 2001 we established a nutrient addition experiment (P, N, and N&P) in 15 marshes of a wide range of water conductivities (200–6000 μS), dominated by Eleocharis spp. To determine what is more important for decomposition, the initial litter quality, or site differences, we used reciprocal litter placement and cellulose decomposition assay in a combined “site quality” and “litter quality” experiment. Our prediction of the positive effects of P-enrichment on decomposition rate due to both the quality of litter and the site was confirmed. The site effect was stronger than the litter quality although both were highly significant. Strong site quality effect was apparently the result of more active decomposer community in P-enriched plots as supported by finding of higher microbial biomass in litter decomposing there. The strong effect of site quality on decomposition was further confirmed by the cellulose assay. The cellulose decomposition was significantly slower at high salinity sites indicating lower decomposer microbial activity. Litter nutrient N and P content and nutrient ratios were well correlated with decomposition with the best fit found for log C/P. At C/P mass ratio of >4000 decomposition processes were extremely slow. We hypothesize that in a long run, the increased decomposition will compensate the increase in primary production resulting from increased nutrient loading and there will be no differences in accumulation of organic material between the controls and nutrient enriched plots.
dc.subject ELEOCHARIS CELLULOSA
dc.subject NORTHERN BELIZE
dc.subject LITTER BAGS
dc.subject CELLULOSE
dc.subject NITROGEN
dc.subject PHOSPHORUS
dc.subject PLFA
dc.title WETLAND PLANT DECOMPOSITION UNDER DIFFERENT NUTRIENT CONDITIONS: WHAT IS MORE IMPORTANT, LITTER QUALITY OR SITE QUALITY?
dc.type Статья
dc.identifier.doi 10.1007/s10533-006-9021-y


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