Carbon addition alters vegetation composition on ex-arable fields.

Autor:	ESCHEN, RENÉ, MORTIMER, SIMON R., LAWSON, CLARE S., EDWARDS, ANDREW R., BROOK, ALEX J., IGUAL, JOSÉ M., HEDLUND, KATARINA, SCHAFFNER, URS
Předmět:	CARBON & the environment NITROGEN in soils AGRICULTURAL intensification VEGETATION dynamics GRASSLAND restoration ARABLE land HABITAT selection PLANT species SOIL microbiology
Zdroj:	Journal of Applied Ecology; Feb2007, Vol. 44 Issue 1, p95-104, 10p, 1 Chart, 4 Graphs
Abstrakt:	1. Recent changes in European agricultural policy have led to measures to reverse the loss of species-rich grasslands through the creation of new areas on ex-arable land. Ex-arable soils are often characterized by high inorganic nitrogen (N) levels, which lead to the rapid establishment of annual and fast-growing perennial species during the initial phase of habitat creation. The addition of carbon (C) to the soil has been suggested as a countermeasure to reduce plant-available N and alter competitive interactions among plant species. 2. To test the effect of C addition on habitat creation on ex-arable land, an experiment was set up on two recently abandoned fields in Switzerland and on two 6-year-old restoration sites in the UK. Carbon was added as a mixture of either sugar and sawdust or wood chips and sawdust during a period of 2 years. The effects of C addition on soil parameters and vegetation composition were assessed during the period of C additions and 1 year thereafter. 3. Soil nitrate concentrations were reduced at all sites within weeks of the first C addition, and remained low until cessation of the C additions. The overall effect of C addition on vegetation was a reduction in above-ground biomass and cover. At the Swiss sites, the addition of sugar and sawdust led to a relative increase in legume and forb cover and to a decrease in grass cover. The soil N availability, composition of soil micro-organisms and vegetation characteristics continued to be affected after cessation of C additions. 4. Synthesis and applications. The results suggest that C addition in grassland restoration is a useful management method to reduce N availability on ex-arable land. Carbon addition alters the vegetation composition by creating gaps in the vegetation that facilitates the establishment of late-seral plant species, and is most effective when started immediately after the abandonment of arable fields and applied over several years. [ABSTRACT FROM AUTHOR]
Databáze:	Complementary Index
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