Agriculture Reference
In-Depth Information
Sanchez PA, Salinas JG (1981) Low-input technology for managing Oxisols and Ultisols in tropi-
cal America. Adv Agron 34:279-406
Schmidt P, Broughton W, Werner D (1994) Nod factors of
Bradyrhizobium japonicum
and
Rhizo-
bium
sp. NGR34 induce flavonoid accumulation in soybean root exudate. Mol Plant-Microb
Interact 7:384-390
Schubert S, Schubert E, Mengel K (1990) Effect of low pH of the root medium on proton release,
growth, and nutrient uptake of field beans (
Vicia faba
). Plant Soil 124:239-244
Shamsi IH, Wei K, Zhang GP, Jilani GH, Hassan MJ (2008) Interactive effects of cadmium and
aluminum on growth and antioxidative enzymes in soybean. Biologia Plant 52: 165-169
Sharma P, Yadav A (2012) Symbiotic characterization of mutants defective in proline dehydroge-
nase in
Rhizobium
sp. Cajanus under drought stress condition. Europ J Exp Biol 2:206-216
Sobhanian H, Razavizadeh R, Nanjo Y, Ehsanpour A, Rastgar Jazii F, Motamed N, Komatsu S
(2010) Proteome analysis of soybean leaves, hypocotyls and roots under salt stress. Proteome
Sci 8:1-15
Soares Novo MC, Tanaka RT, Mascarenhas HAA, Bortoletto N, Gallo PB, Alves Pereira JCVN,
Teixeira Vargas AA (1999) Nitrogênio e potassio na fixação simbiotica de N
2
por soja cultivada
no inverno. Scientia Agricola 56:143-156
Sorensen P, Lett S, Michelsen (2012) Moss-specific changes in nitrogen fixation following two
decades of warming, shading, and fertilizer addition. Plant Ecol 213:695-706
Specht JE, Hume DJ, Kumudini SV (1999) Soybean yield potential—a genetic and physiological
perspective. Crop Sci 39:1560-1570
Stitt M, Krapp A (1999) The interaction between elevated carbon dioxide and nitrogen nutrition:
the physiological and molecular background. Plant Cell Environ 22:583-621
Streeter J (1988) Inhibition of legume nodule formation and N
2
fixation by nitrate. CRC Crit Rev
Plant Sci 7:1-23
Subramanian S, Hu Z, Lu G, Odelland JT, Yu O (2004) The promoters of two isoflavone synthase
genes respond differentially to nodulation and defense signals in transgenic soybean roots.
Plant Mol Biol 54:623-639
Taub DR, Miller B, Allen H (2008) Effects of elevated CO
2
on the protein concentration of food
crops: a meta-analysis. Glob Change Biol 14:565-575
Thaler JS (1999) Jasmonate-inducible plant defenses cause increased parasitism of herbivores.
Nature 399:686-688
Thies JE, Singleton PW, Bohlool BB (1995) Phenology, growth, and yield of field-grown soybean
and bush bean as a function of varying modes of N nutrition. Soil Biol Biochem 27:575-583
Ti C, Pan J, Xia Y, Yan X (2012) A nitrogen budget of mainland China with spatial and temporal
variation. Biocheochem 108:381-394
Townsend AR, Cleveland CC, Houlton BZ, Alden CB, White JWC (2011) Multi-element regula-
tion of the tropical forest carbon cycle. Front Ecol Environ 9:9-17
Unkovich MJ, Pate JS (2000) An appraisal of recent field measurements of symbiotic N
2
fixation
by annual legumes. Field Crops Res 65:211-228
Valliyodan B, Nguyen H (2008) Genomics of Abiotic Stress in Soybean. In: Stacey G (ed) Genet-
ics and genomics of soybean. Springer Science + Business Media, New York
Van Gestel M, Merckx R, Vlassak K (1996) Spatial distribution of microbial biomass in micro-
aggregates of a silty-loam soil and the relation with the resistance of microorganisms to soil
drying. Soil Biol Biochem 28:503-510
Van Kessel C, Hartley C (2000) Agricultural management of grain legumes: has it led to an in-
crease in nitrogen fixation? Field Crops Res 65:165-181
Vassileva V, Milanov G, Ignatov G, Nikolov B (1997) Effect of nitrogen fixation of common bean
grown at various calcium and nitrate levels. J Plant Nutr 20:279-294
Velagaleti RR, Marsh S, Kramer D, Fleischman D, Corbin J (1990) Genotypic differences and
nitrogen fixation among soybean (
Glycine max
L.) cultivars grown under salt-stress. Tropic
Agric 67:169-177
Velitcukova M, Fedina I (1998) Response of photosynthesis of
Pisum sativum
to salt stress as af-
fected by methyl jasmonate. Photosynthetica 35:89-97
Search WWH ::
Custom Search