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Wheat Genetic Resources in Nepal / Joshi, Bal K. in Nepal Agriculture Research Journal, Vol. 7 (2006)
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Title : Wheat Genetic Resources in Nepal Material Type: printed text Authors: Joshi, Bal K., Author ; Ashok Mudwari, Author ; Madan P. Bhatta, Author Publication Date: 2006 Article on page: 1-9 p. Languages : English (eng) Keywords: Ancestor, landrace, origin, wheat gene pool Abstract: Genetic diversity must be maintained and utilized for sustainable agriculture development. The
amount of genetic diversity in the country depends on the number and diversity of the original
ancestors involved in the creation of a germplasm pool, wild relatives and existing landraces.
The objective of this research was to study the diversity of wheat gene pool present in the
Nepalese bread wheat cultivars and landraces that could help for developing conservation and
utilization strategy effectively. We examined the pedigrees of 35 Nepalese wheat cultivars and
surveyed the literature for distribution of landraces and wild relatives of wheat. Cultivated
landraces of spring and winter type, wild landraces and diploid species of wheat are found in
Nepal. There are 35 improved wheat cultivars, 540 landraces and 10 wild relatives of wheat.
Crosses between winter and spring wheat gene pools are far more common and offer a new
source of diversity. Mexico, India and Nepal are the origin countries for 35 cultivars. In Nepal
four cultivars were bred and developed using foreign landraces and maximum number of
cultivars was developed in Mexico. Lerma 52, first improved cereal variety to be released in the
history of cereal breeding in Nepal was released in 1960. A total of 89 ancestors originated in 22
different countries were used to develop these cultivars. Highest number of ancestors was from
India. Ancestors of both aestivum and durum species having winter, spring and intermediate
growth habit indicated the collection of wide gene pool. Most of the ancestors were aestivum
(76.40%) and spring growth habit (57.31%). Modern varieties are replacing the landraces and
improved old varieties resulted in the genetic erosion. Therefore, in situ, on farm and ex situ
conservations are necessary for maintaining these genetic variations. Unutilization of local
landraces in breeding program may be the major factor that causes to accelerate the genetic
erosion. Gene pool from these landraces along with international gene pool could make towards
success in developing high yielding cultivars with wide adaptability. In this study, cultivars and
landraces surveyed represent a wide range of variation for different areas of origin and
adaptation.Link for e-copy: http://elibrary.narc.gov.np/?r=40
in Nepal Agriculture Research Journal > Vol. 7 (2006) . - 1-9 p.[article] Wheat Genetic Resources in Nepal [printed text] / Joshi, Bal K., Author ; Ashok Mudwari, Author ; Madan P. Bhatta, Author . - 2006 . - 1-9 p.
Languages : English (eng)
in Nepal Agriculture Research Journal > Vol. 7 (2006) . - 1-9 p.
Keywords: Ancestor, landrace, origin, wheat gene pool Abstract: Genetic diversity must be maintained and utilized for sustainable agriculture development. The
amount of genetic diversity in the country depends on the number and diversity of the original
ancestors involved in the creation of a germplasm pool, wild relatives and existing landraces.
The objective of this research was to study the diversity of wheat gene pool present in the
Nepalese bread wheat cultivars and landraces that could help for developing conservation and
utilization strategy effectively. We examined the pedigrees of 35 Nepalese wheat cultivars and
surveyed the literature for distribution of landraces and wild relatives of wheat. Cultivated
landraces of spring and winter type, wild landraces and diploid species of wheat are found in
Nepal. There are 35 improved wheat cultivars, 540 landraces and 10 wild relatives of wheat.
Crosses between winter and spring wheat gene pools are far more common and offer a new
source of diversity. Mexico, India and Nepal are the origin countries for 35 cultivars. In Nepal
four cultivars were bred and developed using foreign landraces and maximum number of
cultivars was developed in Mexico. Lerma 52, first improved cereal variety to be released in the
history of cereal breeding in Nepal was released in 1960. A total of 89 ancestors originated in 22
different countries were used to develop these cultivars. Highest number of ancestors was from
India. Ancestors of both aestivum and durum species having winter, spring and intermediate
growth habit indicated the collection of wide gene pool. Most of the ancestors were aestivum
(76.40%) and spring growth habit (57.31%). Modern varieties are replacing the landraces and
improved old varieties resulted in the genetic erosion. Therefore, in situ, on farm and ex situ
conservations are necessary for maintaining these genetic variations. Unutilization of local
landraces in breeding program may be the major factor that causes to accelerate the genetic
erosion. Gene pool from these landraces along with international gene pool could make towards
success in developing high yielding cultivars with wide adaptability. In this study, cultivars and
landraces surveyed represent a wide range of variation for different areas of origin and
adaptation.Link for e-copy: http://elibrary.narc.gov.np/?r=40