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Water Relations, Growth, and Dry Matter Accumulation of Sorghum Under Post-Rainy Season Conditions
1979
Siva Kumar, M. V. K. | Seetharama, N. | Singh, Sardar | Bidinger, F. R.
Sorghum (Sorghum bicolor (L.) Moench) is one of the important crops grown under the residual soil moisture situation during the post-rainy (rabi) season in India. Field studies were conducted at the ICRISAT center on dee vertisols on the effects of water stress on the growth and dry matter accumulation of sorghum. Leaf water PQ tential and stomatal conductance were measured diurnally on four dates during the growing season. Irrigated sorghum crop exhibited higher stomatal conductance and higher leaf water potentials as compared to the nonirrigated sorghum. Higher transpiration rates observed in the case of the irrigated sorghum could be explained by the increased net radiation measured over the irrigated canopy. Lower leaves in the sorghum canopy showed lower stomatal conductance. Irrigated sorghum plants showed higher leaf area index and greater dry matter accumulation than those of the nonirrigated sorghum plants. There were significant differences in the final yield between the two treatments as reflected by less teritiary brancheslsecondaries, lower seed number/panicle and smaller seed size in the case of the nonirrigated sorghum. On a seasonal basis, the nonirrigated sorghum crop used 213 mm of water to produce 0.51 kg m⁻² of dry matter, whereas the irrigated sorghum extracted 321 mm of water to produce 0.93 kg m⁻² of dry matter.
Показать больше [+] Меньше [-]Water relations, growth, and dry matter accumulation of sorghum under post-rainy season conditions
1979
Sivakumar, M V K | Seetharama, N | Singh, Sardar | Bidinger, F R
Field studies were conducted on deep vertisols to assess the effects of water stress on the growth and DM accumulation of sorghum. Leaf water potential and stomatal conductance were measured diurnally on 4 dates during the growing season. Irrigated sorghum exhibited higher stomatal conductance, higher leaf water potentials, higher LAI and greater DM accumulation than non-irrigated sorghum. Higher transpiration rates in irrigated sorghum were explained by increased net radiation measured over the irrigated canopy. Lower leaves in the sorghum canopy showed lower stomatal conductance. Non-irrigated sorghum had fewer tertiary branches/secondary branch, fewer seeds/panicle and smaller seeds. Non-irrigated sorghum used 213 mm water to produce 0.51 kg DM/m2; irrigated sorghum extracted 321 mm water to produce 0.93 kg DM/m2
Показать больше [+] Меньше [-]American agriculture in an energy perspective.
1979
Heichel G.H.
Factors contributing to control of second-generation European corn borers [Ostrinia nubilalis].
1979
Guthrie W.D. | Berry E.C.
Seed corn production under various irrigation systems [in Iowa, South Dakota, Nebraska, Kansas, Missouri, Oklahoma, Texas].
1979
Taylor J.D.
Latente, a new type of drought tolerance? [Corn breeding programs in the United States].
1979
Castleberry R.M. | Lerette R.J.
Cytoplasmic inheritance of male sterility and pest resistance [to Helminthosporium maydis, corn].
1979
Gracen V.E. | Kheyr Pour A. | Earle E.D. | Gregory P.
Sorghum for food: opportunities, problems and potential.
1979
Rooney L.W.
Sorghum production with limited water in the irrigated desert [Arizona].
1979
Dennis R. | Miyata S. | Sato M.
Multiplication of Chilo iridescent virus in noninsect arthropods.
1979
Ohba M. | Aizawa K.
