eprintid: 25617
rev_number: 26
eprint_status: archive
userid: 1642
dir: disk0/00/02/56/17
datestamp: 2014-04-04 18:35:23
lastmod: 2020-11-10 13:42:00
status_changed: 2014-04-04 18:35:23
type: journalp
metadata_visibility: show
doclang: en
projects: ch-fibl-vegetables
projects: de-fibl
projects: de-naturland
projects: soel
projects: uni-kassel
refereed: yes
budget: 0
publicfulltext: FALSE
creators_name: Fuchs, Jacques G.
creators_name: Thürig, Barbara
creators_name: Brandhuber, Robert
creators_name: Bruns, Christian
creators_name: Finckh, Maria R.
creators_name: Fließbach, Andreas
creators_name: Mäder, Paul
creators_name: Schmidt, Harald
creators_name: Vogt-Kaute, Werner
creators_name: Wilbois, Klaus-Peter
creators_name: Lucius, Tamm
creators_id: jacques.fuchs@fibl.org
creators_id: barbara.thuerig@fibl.org
creators_id: robert.brandhuber@lfl.bayern.de
creators_id: lucius.tamm@fibl.org
title: Evaluation of the causes of legume yield depression syndrome using an improved diagnostic tool
ispublished: pub
subjects: 3compost
subjects: 4tillage
keywords: Gemüsebau, Pflanzenschutz, Bodenmüdigkeit, Pea, Organic agriculture, Soil fatigue, Soil-borne plant pathogens, Oomycetes
abstract: The aim of the study was to establish a diagnostic tool to narrow down the causes for pea yield depressions. A differential two-level diagnostic test system was established under controlled conditions usingpeas (Pisum sativum L.) as test plants. Soils from 22 organically managed sites with unexplained moderate to high pea yield losses were tested in level 1 diagnostics (y-irradiation to eliminate potentiallyharmful organisms, nutrient additions to compensate for potential nutrient deficiencies or activated charcoal amendment to bind and thereby to immobilize potentially phytotoxic compounds). Results showedthat organisms harmful to the test plant were the primary cause of limited germination and growth inmost of the sampled soils, whereas a positive effect of nutrient addition was rarely found and toxinswere not involved. Level 2 diagnostics (pesticides targeting ascomycetes, oomycetes, Rhizoctonia spp.,nematodes) further narrowed down the organisms involved in yield depressions. Oomycetes were identified as the primary reason for limited germination rates, and, in some soils, also for limited growth ofestablished seedlings. In other soils, a multitude rather than a single group of pathogens was involved inlimited growth. Plantpathogenic nematodes were never found to be limiting for crop growth parameters. Harmful effects of pesticides were found in several soils, hinting at an important role of beneficialsoil organisms in the suppression of pathogens causing yield depression in legumes. The bioassay used inthe present study was robust and could thus serve as a low-cost tool for agricultural advisors and farm-ers to predict the risk of yield losses in legumes and to narrow down causes, helping them to develop appropriate strategies.
date: 2014-02
date_type: published
publication: Applied Soil Ecology
volume: 79
full_text_status: restricted
pagerange: 26-36
issn: 0929-1393
contact_email: jacques.fuchs@fibl.org
conf_subm: not_subm
voa3r_agrovoc_lang: en
voa3r_agrovoc_value_string: Legumes
voa3r_agrovoc_value_uri: http://aims.fao.org/aos/agrovoc/c_4255
fp7_project: no
access_rights: info:eu-repo/semantics/openAccess
citation:    Fuchs, Jacques G.; Thürig, Barbara; Brandhuber, Robert; Bruns, Christian; Finckh, Maria R.; Fließbach, Andreas; Mäder, Paul; Schmidt, Harald; Vogt-Kaute, Werner; Wilbois, Klaus-Peter and Lucius, Tamm   (2014) Evaluation of the causes of legume yield depression syndrome using an improved diagnostic tool.   Applied Soil Ecology, 79, pp. 26-36.        
document_url: /id/eprint/25617/1/Fuchs_2014.pdf