Full TGIF record #94096

	Full TGIF Record # 94096 Item 1 of 1

DOI:	10.1007/s00374-002-0550-9
Web URL(s):	https://link.springer.com/content/pdf/10.1007%2Fs00374-002-0550-9.pdf Last checked: 09/27/2017 Requires: PDF Reader Access conditions: Item is within a limited access website
Publication Type:	Refereed
Author(s):	Uyl, Arina; Didden, Wim; Marinissen, Joke
Author Affiliation:	Uyl and Marinissen: Laboratory of Soil Science and Geology; Uyl and Didden: Sub-Department of Soil Quality, Wageningen University, Wageningen, The Netherlands
Title:	Earthworm activity and decomposition of ¹⁴C-labelled grass root systems
Source:	Biology and Fertility of Soils. Vol. 36, No. 6, December 2002, p. 447-455.
Publishing Information:	Berlin: Springer
# of Pages:	9
Related Web URL:	http://link.springer.com/article/10.1007/s00374-002-0550-9 Last checked: 07/10/2014 Notes: Abstract only
Keywords:	TIC Keywords: Earthworms; Decomposition; Carbon-14; Roots; Lumbricus rubellus; Holcus lanatus; Festuca ovina
Abstract/Contents:	"Decomposition of ¹⁴C-labelled root systems of the grass species Holcus lanatus and Festuca ovina, representative of mesotrophic and oligotrophic situations, respectively, was monitored during 14 months under field conditions in the presence or absence of earthworms (Lumbricus rebellus). During the experiment respiration was monitored, and after 6 weeks and 3 and 14 months the carbon distribution in the soil was determined in various pools of aggregates and organic matter. Hypotheses tested were: (1) roots of oligotrophic plants decompose more slowly than roots of mesotrophic plants, (2) earthworms prefer mesotrophic organic material, and (3) in worm excrements organic material is protected against rapid decomposition. Initially, Holcus root material decomposed faster than that of Festuca, which was probably connected with the higher amount of rhizodeposits in the former. For both species, decomposition was faster in the presence of earthworms, due to enhanced fragmentation and mixing of the material. It appeared, however, that Festuca material fragmented more easily than that of Holcus and it seemed that earthworms had a higher preference for Festuca material. Consequently, more Festuca material was incorporated in macro- and microaggregates, and these aggregates stayed stable for a longer period than those with Holcus material. Although earthworm activity was markedly decreased after 3 months, their effects remained visible throughout the experimental period. It also appeared that after 3 months the processes taking place with the added root material could no longer be distinguished from those involving older organic material. It is concluded that the first two hypotheses could not be confirmed, and that the third remains likely. Furthermore, it is argued that nutrient cycling in an oligotrophic ecosystem will be decelerated more by earthworm activity than in a mesotrophic system. The preference of worms for Festuca and the probably longer protection of this material within aggregates will accelerate species replacement during succession."
Language:	English
References:	30
Note:	Tables Graphs
	*ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete):* Uyl, A., W. Didden, and J. Marinissen. 2002. Earthworm activity and decomposition of ¹⁴C-labelled grass root systems. Biology and Fertility of Soils. 36(6):p. 447-455.
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	DOI: 10.1007/s00374-002-0550-9
	Web URL(s): https://link.springer.com/content/pdf/10.1007%2Fs00374-002-0550-9.pdf Last checked: 09/27/2017 Requires: PDF Reader Access conditions: Item is within a limited access website
	MSU catalog number: b2173883
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