Legume Genomics and Genetics 2016, Vol.7, No.1, 1-11
11
2008, Effect of increasing temperature on yield of some winter crops in
northwest India, Current Science, 94: 82-88
Krishnamurthy L., Gaur P.M., Basu P.S., Chaturvedi S.K., Tripathi S.,
Vadez V., Rathore A., Varshney R.K., and Gowda C.L.L., 2011, Large
genetic variation for heat tolerance in the reference collection of
chickpea (
Cicerarietinum
L.) germplasm, Plant Genetic Resources:
Characterization and Utilization, 9(1): 59-69
Kumar S., 2006, Climate change and crop breeding objectives in the twenty
first century. Current Science, 90: 1053-1054
Kumar S., and M. Ali, 2006, GE interaction and its breeding implications in
pulses, The Botanica, 56: 31-36
Lucas M.R., Ehlers J.D., Huynh B.L., Diop N.N., Roberts P.A., and Close
T.J., 2012, Markers for breeding heat-tolerant cowpea, Molecular
Breeding, 3: 529-536
Payne R.W., Murray D.A., Harding S.A., Baird D.B., and Soutar D.M.,
2011, An introduction to GENSTAT for Windows, 14th edn. VSN
International: Hemel Hempstead, UK
Pearson H. M., and Harney P.M., 1984, Pollen viability in Rosa,
Horticulture Science, 19: 710-711
Ploeg Van der A., and Heuvelink E., 2005, Influence of sub-optimal
temperature on tomato growth and yield: A review, Journal of
Horticultural Science and Biotechology, 80: 652-659
Porch T.G., and Jahn M., 2001, Effects of high-temperature stress on
microsporogenesis in heat-sensitive and heat-tolerant genotypes of
Phaseolus vulgaris
, Plant Cell Environ, 24: 723-731
Prasad P.V., Craufurd, and Summerfield R.J., 1999, Fruit number in relation
to pollen production and viability in groundnut exposed to short
episodes of heat stress, Annals of Botany, 84: 381-386
Robert W.C., 1977, Pollen-ovule ratios: A conservative indicator of
breeding systems in flowering plants, Evolution, 31: 32-46
Roberts E. H., Summerfield R.J., Muehlbauer F.J., and Short R.W., 1986,
Flowering in lentil (
Lens culinaris
Medic.): the duration of the
photoperiodic inductive phase as a function of accumulated day length
above the critical photoperiod, Annals of Botany, 58: 235-248
Saini H.S., Sedgley M., and Aspinall D., 1984, Developmental anatomy in
wheat of male sterility induced by heat stress, water deficit or abscissic
acid, Australian Journal of Plant Physiology, 11: 243-253
Sarker A., Erskine W., Sharma B., and Tyagi M.C., 1999, Inheritance and
linkage relationships of days to flower and morphological loci in lentil
(
Lens culinaris
Medikus subsp.
culinaris
), Journal of Heredity, 90:
270-275
SAS Institute, 2007, Version 9.1.3 Users guide. Release SAS Institute Inc.,
Cary, NC, USA
Siddique K.H.M., Loss S.P., Regan K.L., and Jettner R.L., 1999, Adaptation
and seed yield of cool season grain legumes in Mediterranean
environments of south-western Australia, Australian Journal of
Agricultural Research, 50: 375-387
Subbarao G.V., Kumar Rao J.V.D.K., Kumar J., Johansen C., Deb U.K.,
Ahmed I., Krishna Rao M.V., Venkataratnam L., Hebbar K.R., Sai
M.V.S.R., and Harris D., 2001, Spatial distribution and quantification
of rice-fallows in South Asia-potential for legumes, ICRISAT,
Patancheru, India
Summerfield R.J., Roberts E.H., Erskine W., and Ellis R.H., 1985, Effects of
temperature and photoperiod on flowering in lentils (
Lens culinaris
Medic.), Annals of Botany, 56:659-671
Wahid A., Gelani S., Ashraf M., and Foolad M.R.,
2007, Heat tolerance in
plants: an overview, Environmental and Experimental Botany, 61:
199-223
