Performance of various cassava clones in the dry savanna region of Nigeria

Performance of various cassava clones in the dry savanna region of Nigeria

Cassava (Manihot esculenta Crantz) crop is widely known adapt to variable drought conditions. Due to the lack of adapted and high-yielding cultivars tolerant to the prevalent biotic and abiotic stresses, cassava is yet to find a wide and appropriate niche in the farming systems of the African dry savannas. Research aimed at improving adaptation to dry environments is under way. Field studies conducted at two lowland sites in the northern Guinea and Sudan savanna zones of Nigeria revealed a wide genetic variability in adaptation among African and introduced Latin American germplasm. Significant genotypic variability for stomatal response to dry weather fibrous root development, leaf stay-green ability, tuberous root yield and apparent water-use efficiency have been noted. Such variable mechanisms of adaptation associated with drought resistance are currently used as selection criteria in the IITA breeding programme to improve and sustain the cassava production in these dry savanna zones.

Saved in:
Bibliographic Details
Main Authors: Ekeneyake, I.J., Dixon, Alfred G.O., Porto, M.C.M.
Format: Book Chapter biblioteca
Language:English
Published: 1996
Subjects:cassava, crops, cultivars, farming systems, research, genetic variability, germplasm,
Online Access:https://hdl.handle.net/10568/103922
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-cgspace-10568-103922
record_format koha
spelling dig-cgspace-10568-1039222023-06-08T19:31:07Z Performance of various cassava clones in the dry savanna region of Nigeria Ekeneyake, I.J. Dixon, Alfred G.O. Porto, M.C.M. cassava crops cultivars farming systems research genetic variability germplasm Cassava (Manihot esculenta Crantz) crop is widely known adapt to variable drought conditions. Due to the lack of adapted and high-yielding cultivars tolerant to the prevalent biotic and abiotic stresses, cassava is yet to find a wide and appropriate niche in the farming systems of the African dry savannas. Research aimed at improving adaptation to dry environments is under way. Field studies conducted at two lowland sites in the northern Guinea and Sudan savanna zones of Nigeria revealed a wide genetic variability in adaptation among African and introduced Latin American germplasm. Significant genotypic variability for stomatal response to dry weather fibrous root development, leaf stay-green ability, tuberous root yield and apparent water-use efficiency have been noted. Such variable mechanisms of adaptation associated with drought resistance are currently used as selection criteria in the IITA breeding programme to improve and sustain the cassava production in these dry savanna zones. 1996 2019-10-03T14:30:53Z 2019-10-03T14:30:53Z Book Chapter Ekeneyake, I.J., Dixon, A.G.O. & Porto, M.C.M. (1996). Performance of various cassava clones in the dry savanna region of Nigeria. In: G.T. Kurup, M.S. Palaniswamy, V.R. Potty, G. Padmaja, S. Kabeeathamma & S.V. Pillai (Eds), Tropical tuber crops: problems, prospects and future strategies. New Delhi, India: Oxford & IBH, (p. 207-215) https://hdl.handle.net/10568/103922 en Limited Access p. 207-215
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 cassava
crops
cultivars
farming systems
research
genetic variability
germplasm
cassava
crops
cultivars
farming systems
research
genetic variability
germplasm
spellingShingle cassava
crops
cultivars
farming systems
research
genetic variability
germplasm
cassava
crops
cultivars
farming systems
research
genetic variability
germplasm
Ekeneyake, I.J.
Dixon, Alfred G.O.
Porto, M.C.M.
Performance of various cassava clones in the dry savanna region of Nigeria
description Cassava (Manihot esculenta Crantz) crop is widely known adapt to variable drought conditions. Due to the lack of adapted and high-yielding cultivars tolerant to the prevalent biotic and abiotic stresses, cassava is yet to find a wide and appropriate niche in the farming systems of the African dry savannas. Research aimed at improving adaptation to dry environments is under way. Field studies conducted at two lowland sites in the northern Guinea and Sudan savanna zones of Nigeria revealed a wide genetic variability in adaptation among African and introduced Latin American germplasm. Significant genotypic variability for stomatal response to dry weather fibrous root development, leaf stay-green ability, tuberous root yield and apparent water-use efficiency have been noted. Such variable mechanisms of adaptation associated with drought resistance are currently used as selection criteria in the IITA breeding programme to improve and sustain the cassava production in these dry savanna zones.
format Book Chapter
topic_facet cassava
crops
cultivars
farming systems
research
genetic variability
germplasm
author Ekeneyake, I.J.
Dixon, Alfred G.O.
Porto, M.C.M.
author_facet Ekeneyake, I.J.
Dixon, Alfred G.O.
Porto, M.C.M.
author_sort Ekeneyake, I.J.
title Performance of various cassava clones in the dry savanna region of Nigeria
title_short Performance of various cassava clones in the dry savanna region of Nigeria
title_full Performance of various cassava clones in the dry savanna region of Nigeria
title_fullStr Performance of various cassava clones in the dry savanna region of Nigeria
title_full_unstemmed Performance of various cassava clones in the dry savanna region of Nigeria
title_sort performance of various cassava clones in the dry savanna region of nigeria
publishDate 1996
url https://hdl.handle.net/10568/103922
work_keys_str_mv AT ekeneyakeij performanceofvariouscassavaclonesinthedrysavannaregionofnigeria
AT dixonalfredgo performanceofvariouscassavaclonesinthedrysavannaregionofnigeria
AT portomcm performanceofvariouscassavaclonesinthedrysavannaregionofnigeria
_version_ 1779057494410133504

Similar Items