Agriculture Reference
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Rai R, Singh RP (1999) Effect of salt stress on interaction bet-
ween lentil (
Lens culinaris
) genotypes and
Rhizobium
spp.
strains: symbiotic N
2
fixation in normal and sodic soils.
Biol
Fertil Soils
29: 187-195.
Raman SV, Iniyan S, Goic R (2012) A review of climate change,
mitigation and adaptation.
Renew Sust Energ Rev
16: 878-897.
Rao DLN, Giller KE, Yeo AR, Flowers TJ (2002) The effects of
salinity and sodicity upon nodulation and nitrogen fixation
in chickpea (
Cicer arietinum
).
Ann Bot
89: 563-570.
Raven PH, Pothill RM (1981) Biogeography of the Leguminose.
In: Pothill RM, Raven PH (eds),
Advances in Legume Systematics
.
Royal Botanical Gardens, Kew, pp. 27-34.
Rengasamy P (2006) World salinization with emphasis on
Australia.
J Exp Bot
57: 1017-1023.
Rengasamy P, Chittleborough D, Helyar K (2003) Root zone
constraints and plant-based solutions for dry land salinity.
Plant Soil
257: 249-260.
Richards LA (1954) Diagnosis and improvement of saline and
alkali soils. USDA Agric. Handbook 60. U.S. Government
Printing Office, Washington, DC.
Richter C, Heiligtag B, Nagieb M, Mukhallablati U (1999) The
effects of salinity on growth and ion content of chickpea (
Cicer
arietinum
L.), egg fruit (
Solanum melongena
L.) and red pepper
(
Capsicum annuum
L.) varieties.
Tropenlandwirt
100: 3-16.
Rossignol M, Peltier JB, Mock HP, Matros A, Maldonado AM,
Jorrin JV (2006) Plant proteome analysis: a 2004-2006
update.
Proteomics
6: 5529-5548.
Rozema J, Flowers T (2008) Crops for a salinized world.
Science
322: 1478-1480.
Saadallah K, Drevon J, Mokhtar Abdelly C (2001) Genotypic
variability for tolerance to salinity of N
2
-fixing common bean
(
Phaseolus vulgaris
).
Agronomie
21: 675-682.
Sadiki M, Rabih K (2001) Selection of chickpea (
Cicer arietinum
)
for yield and symbiotic nitrogen fixation ability under salt
stress.
Agronomie
21: 659-666.
Saha P, Chatterjee P, Biswas AK (2010) NaCl pretreatment
alleviates salt stress by enhancement of antioxidant defense
system and osmolyte accumulation in mungbean (
Vigna
radiata
L. Wilczek).
Indian J Exp Biol
48: 593-600.
Saha P, Kunda P, Biswas AK (2012) Influence of sodium chloride
on the regulation of Krebs cycle intermediates and enzymes
of respiratory chain in mungbean (
Vigna radiata
L. Wilczek)
seedlings.
Plant Physiol Biochem
60: 214-222.
Samineni S, Siddique KHM, Gaur PM, Colmer TD (2011) Salt
sensitivity of the vegetative and reproductive stages in chickpea
(
Cicer arietinum
L.): Podding is a particularly sensitive stage.
Environ Exp Bot
71: 260-268.
Sanginga N, Dashiell K, Diels J,
et al.
(2003) Sustainable
resource management coupled to resilient germplasm to pro-
vide new intensive cereal-grain legume-livestock systems in
the dry savanna.
Agric Ecosyst Environ
100: 305-314.
Sato S, Nakamura Y, Kaneko T,
et al.
(2008) Genome structure
of the legume
Lotus japonicus
.
DNA Res
15: 227-239.
Schmutz J, Cannon SB, Schleuter J,
et al.
(2010) Genome sequence
of the palaeopolyploid soybean.
Nature
463: 178-183.
Sekeroglu N, Kara MS, Dede O, Askin T (1999) Effect of salinity
on germination, early seedling growth, Na and K constituents
of chickpea.
Turk J Field Crops
4: 79-84.
Serraj R, Roy G, Drevon JJ (1994) Salt stress induces a decrease
in the oxygen uptake of soybean nodules and in their perme-
ability to oxygen diffusion.
Physiol Plant
91: 161-168.
Serraj R, VasquezDiaz H, Hernandez G, Drevon JJ (2001)
Genotypic difference in the short-term response of nitroge-
nase activity (C
2
H
2
reduction) to salinity and oxygen in the
common bean.
Agronomie
21: 645-651.
Shalhevet J, Huck MG, Schroeder BP (1995) Root and shoot
growth responses to salinity in maize and soybean.
Agron J
87: 512-516.
Shamseldin A, Werner D (2005) High salt and high pH toler-
ance of new isolated
Rhizobium
etli strains from Egyptian
soils.
Curr Microbiol
50: 11-16.
Sharma KD, Datta KS, Varma SK (1990) Effect of chloride and
sulphate salinity on nodulation and nitrogen fixation in
chickpea.
Ann Biol
6: 13-20.
Sheokand S, Dhandi S, Swaraj K (1995) Studies on nodule func-
tioning and hydrogen peroxide scavenging enzymes under salt
stress in chickpea nodules.
Plant Physiol Biochem
33: 561-566.
Shiva Prakash N, Sarin NB (1993) Isolation of salt tolerant cell
lines of
Cajanus cajan
and comparative study of their
physiological responses with intact plants under salt stress.
Plant Physiol Biochem
20: 11-15.
Singh A, Kumari R, Garg AP, Varma A (2005) Endomycorrhizal
diversity. In: Podila GK, Varma A (eds),
Basic Research
and Applications of Mycorrhizae
. IK International, New Delhi,
pp. 1-23.
Singh AK, Singh RA (1999) Effect of salinity on sodium,
potassium and proline content of chickpea genotypes.
Indian
J Plant Physiol
4: 111-113.
Singh AK, Singh RA, Sharma SG (2001) Salt stress induced
changes in certain organic metabolites during seedling
growth of chickpea.
Legume Res
24: 11-15.
Singh BB, Ajeigbe HA, Tarawali SA, Fernandez-Rivera S,
Abubakar M (2003) Improving the production and utiliza-
tion of cowpea as food and as fodder.
Field Crops Res
84:
169-177.
Singla R, Garg N (2005) Influence of salinity on growth and
yield attributes in chickpea cultivars.
Turk J Agric For
29:
231-235.
Sobhanian H, Motamed N, Jazii FR, Nakamura T, Komatsu S
(2010a) Salt stress induced differential proteome and metabo-
lome response in the shoots of
Aeluropus lagopoides
(Poaceae),
a halophyte C
4
plant.
J Proteome Res
9: 2882-2897.
Sobhanian H, Razavizadeh R, Nanjo Y,
et al.
(2010b) Proteome
analysis of soybean leaves, hypocotyls and roots under salt
stress.
Proteome Sci
8: 19.
Sohrabi Y, Heidari G, Esmailpoor B (2008) Effect of salinity on
growth and yield of Desi and Kabuli chickpea cultivars.
Pak J
Biol Sci
11: 664-667.
Song Y, Ji D, Li S, Wang P, Li Q, Xiang F (2012) The dynamic
changes of DNA methylation and histone modifications of
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