Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses

Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses

Parasitic weed, Striga gesnerioides is a major constraint to cowpea [Vigna unguiculata (L.) Walp.] productivity in West and Central Africa. Efforts are being made to identify major genes that determine the race specific resistances to S. gesnerioides in cowpea and to develop resistant varieties with suitable agricultural traits. However, detailed mechanisms that induce the resistances are unclear and the effects of environmental stresses under the field conditions on the resistance to S. gesnerioides have not been reported. To evaluate the stability of resistance mechanisms to S. gesnerioides race SG3 in cowpea, the effects of high infestation rate and combined environmental stresses on the resistance to S. gesnerioides were investigated. Under high (60,000 germinable seed per pot) infestation rate, no S. gesnerioides attachments were observed on the roots of three resistant genotypes B301, IT97K-499-35 and IT98K-205-8, while susceptible Dan Ila and IT98D-1399 showed a number of attachments even at the lowest infestation rate. Low soil fertility and drought stress could reduce the growth of cowpea. However, these stresses did not alter the resistance of IT97K-499-35 and IT98K-205-8 to S. gesnerioides. Greater growth inhibition was observed in IT98D-1399 under the combination of S. gesnerioides infestation and drought stress compared to Dan Ila which also showed a number of attachments. This suggests that the restricted root development due to S. gesnerioides infection observed in IT98D-1399 may restrict water uptake from the soil, and consequently magnified the effect of drought stress on the host s productivity. The results obtained indicate that the physiological mechanisms attributable to the resistance to S. gesnerioides race SG3 in cowpea could perform stably under high seed infestation condition, and combined low soil fertility and drought stresses.

Saved in:
Bibliographic Details
Main Authors: Muranaka S, Fatokun, C.A., Boukar, O.
Format: Journal Article biblioteca
Language:English
Published: 2011
Subjects:agriculture, climate, striga gesnerioides, vigna unguiculata,
Online Access:https://hdl.handle.net/10568/42029
http://world-food.net/download/journals/2011-issue_2/a33.pdf
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-cgspace-10568-42029
record_format koha
spelling dig-cgspace-10568-420292016-05-30T17:56:42Z Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses Muranaka S Fatokun, C.A. Boukar, O. agriculture climate striga gesnerioides vigna unguiculata Parasitic weed, Striga gesnerioides is a major constraint to cowpea [Vigna unguiculata (L.) Walp.] productivity in West and Central Africa. Efforts are being made to identify major genes that determine the race specific resistances to S. gesnerioides in cowpea and to develop resistant varieties with suitable agricultural traits. However, detailed mechanisms that induce the resistances are unclear and the effects of environmental stresses under the field conditions on the resistance to S. gesnerioides have not been reported. To evaluate the stability of resistance mechanisms to S. gesnerioides race SG3 in cowpea, the effects of high infestation rate and combined environmental stresses on the resistance to S. gesnerioides were investigated. Under high (60,000 germinable seed per pot) infestation rate, no S. gesnerioides attachments were observed on the roots of three resistant genotypes B301, IT97K-499-35 and IT98K-205-8, while susceptible Dan Ila and IT98D-1399 showed a number of attachments even at the lowest infestation rate. Low soil fertility and drought stress could reduce the growth of cowpea. However, these stresses did not alter the resistance of IT97K-499-35 and IT98K-205-8 to S. gesnerioides. Greater growth inhibition was observed in IT98D-1399 under the combination of S. gesnerioides infestation and drought stress compared to Dan Ila which also showed a number of attachments. This suggests that the restricted root development due to S. gesnerioides infection observed in IT98D-1399 may restrict water uptake from the soil, and consequently magnified the effect of drought stress on the host s productivity. The results obtained indicate that the physiological mechanisms attributable to the resistance to S. gesnerioides race SG3 in cowpea could perform stably under high seed infestation condition, and combined low soil fertility and drought stresses. 2011 2014-08-15T12:13:18Z 2014-08-15T12:13:18Z Journal Article Muranaka S, Fatokun C, Boukar O. 2011. Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses. Journal of Food, Agriculture and Environment 9(2):313-318. 1459-0263 https://hdl.handle.net/10568/42029 http://world-food.net/download/journals/2011-issue_2/a33.pdf en Open Access Journal of Food, Agriculture and Environment
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic agriculture
climate
striga gesnerioides
vigna unguiculata
agriculture
climate
striga gesnerioides
vigna unguiculata
spellingShingle agriculture
climate
striga gesnerioides
vigna unguiculata
agriculture
climate
striga gesnerioides
vigna unguiculata
Muranaka S
Fatokun, C.A.
Boukar, O.
Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses
description Parasitic weed, Striga gesnerioides is a major constraint to cowpea [Vigna unguiculata (L.) Walp.] productivity in West and Central Africa. Efforts are being made to identify major genes that determine the race specific resistances to S. gesnerioides in cowpea and to develop resistant varieties with suitable agricultural traits. However, detailed mechanisms that induce the resistances are unclear and the effects of environmental stresses under the field conditions on the resistance to S. gesnerioides have not been reported. To evaluate the stability of resistance mechanisms to S. gesnerioides race SG3 in cowpea, the effects of high infestation rate and combined environmental stresses on the resistance to S. gesnerioides were investigated. Under high (60,000 germinable seed per pot) infestation rate, no S. gesnerioides attachments were observed on the roots of three resistant genotypes B301, IT97K-499-35 and IT98K-205-8, while susceptible Dan Ila and IT98D-1399 showed a number of attachments even at the lowest infestation rate. Low soil fertility and drought stress could reduce the growth of cowpea. However, these stresses did not alter the resistance of IT97K-499-35 and IT98K-205-8 to S. gesnerioides. Greater growth inhibition was observed in IT98D-1399 under the combination of S. gesnerioides infestation and drought stress compared to Dan Ila which also showed a number of attachments. This suggests that the restricted root development due to S. gesnerioides infection observed in IT98D-1399 may restrict water uptake from the soil, and consequently magnified the effect of drought stress on the host s productivity. The results obtained indicate that the physiological mechanisms attributable to the resistance to S. gesnerioides race SG3 in cowpea could perform stably under high seed infestation condition, and combined low soil fertility and drought stresses.
format Journal Article
topic_facet agriculture
climate
striga gesnerioides
vigna unguiculata
author Muranaka S
Fatokun, C.A.
Boukar, O.
author_facet Muranaka S
Fatokun, C.A.
Boukar, O.
author_sort Muranaka S
title Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses
title_short Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses
title_full Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses
title_fullStr Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses
title_full_unstemmed Stability of Striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses
title_sort stability of striga gesnerioides resistance mechanism in cowpea under high- infestation level, low soil fertility and drought stresses
publishDate 2011
url https://hdl.handle.net/10568/42029
http://world-food.net/download/journals/2011-issue_2/a33.pdf
work_keys_str_mv AT muranakas stabilityofstrigagesnerioidesresistancemechanismincowpeaunderhighinfestationlevellowsoilfertilityanddroughtstresses
AT fatokunca stabilityofstrigagesnerioidesresistancemechanismincowpeaunderhighinfestationlevellowsoilfertilityanddroughtstresses
AT boukaro stabilityofstrigagesnerioidesresistancemechanismincowpeaunderhighinfestationlevellowsoilfertilityanddroughtstresses
_version_ 1779053968407658496

Similar Items