I. Khanzada, Naheed Akhter Talpur, Z. Shah, G. M. Jamro, J. Shah, K. H. Talpur, A. Shah
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Eight P and S treatments were involved in this study, i.e. single application of each 90 kg P2O5 (T1) and 20 kg S ha-1 (T2); integration of 90 kg P2O5 with S @ 20, 40 and 60 kg ha-1 (T3, T4 and T5, respectively), and integration of 120 kg P2O5 with S @ 20, 40 and 60 kg ha-1 (T6, T7 and T8, respectively). The experiment followed an RCBD arrangement that was replicated thrice. Recommended seed rate of maize (95 kg ha-1) was used for sowing. The results revealed that shoot biomass production was maximum when maize plants received higher doses of P and S in an integrated manner (120-60 kg P2O5-S ha-1). At 30 DAS, shoot fresh biomass was found maximum, and statistically alike, when 90 or 120 kg P2O5 was integrated with S @ 60 kg ha-1. Shoot fresh biomass was maximum, at 40 DAS when 120-60 kg P2O5-S ha-1 was applied to maize. Shoot dry biomass after 30 days of sowing was highest when 90 kg P2O5 was applied with S @ 60 kg ha-1 or when, 120 kg P2O5 was used with S @ 40 and 60 kg ha-1. Shoot length was maximum, both at 30 and 40 DAS, in case of using 120-60 kg P2O5-S ha-1. Chlorophyll content of maize was maximum, both at 30 and 40 DAS, when 90 kg P2O5 was applied with S @ 60 kg ha-1. Maximum fodder yield of maize was noted when 120 kg P2O5 was applied with 60 kg S ha-1. Highest P-uptake, both at 30 and 40 DAS was noted when 120 kg P2O5 was applied with S @ 60 kg ha-1. At the first stage of growth, S-uptake was highest when 60 kg S was integrated with 90 kg P2O5 ha-1. 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引用次数: 0
摘要
磷(P)和硫(S)是最重要的植物营养物质,对促进玉米早期生长发育和提高饲料产量具有重要作用。这项重要的田间研究旨在评估磷-硫互作对玉米生长、饲料产量和养分(磷和硫)吸收的影响。所研究的土壤为粘土壤土,中碱性(pH: 7.9),无盐(EC: 0.85 dS - m-1),强钙质(CaCO3: 24%),有机质充足(1.6%),ABDTPA-P含量低(3.5 mg kg-1), SO4-S含量中等(21.5 mg kg-1)。本研究共设置8个磷、硫处理,即分别施用90 kg P2O5 (T1)和20 kg sha -1 (T2);90 kg P2O5与S @ 20、40和60 kg ha-1(分别为T3、T4和T5)结合,120 kg P2O5与S @ 20、40和60 kg ha-1(分别为T6、T7和T8)结合。实验遵循RCBD的安排,重复了三次。采用玉米推荐播种量(95 kg hm -1)播种。结果表明,磷、硫综合施用剂量为120 ~ 60 kg P2O5-S ha-1时,玉米茎部生物量产量最大。在30 DAS时,当90或120 kg P2O5与S @ 60 kg ha-1混合时,茎部新鲜生物量最大,统计结果相似。施用120 ~ 60 kg P2O5-S ha-1时,玉米茎部新鲜生物量在40 DAS时最大。播后30 d的地上部干生物量在90 kg P2O5配S @ 60 kg ha-1或120 kg P2O5配S @ 40和60 kg ha-1时最高。施用120 ~ 60 kg P2O5-S ha-1时,茎长在30和40 DAS时最大。施用90 kg P2O5, S @ 60 kg ha-1时,玉米叶绿素含量在30和40 DAS时最高。P2O5用量为120 kg, sha -1用量为60 kg时,玉米饲料产量最高。施用120 kg P2O5, S @ 60 kg ha-1时,在30和40 DAS时,p吸收量最高。在生长初期,60 kg S与90 kg P2O5 hm -1混合时S吸收最高。建议综合施用120 ~ 60 kg P2O5-S ha-1,以获得经济上最大的玉米饲料产量。
Maize Growth, Fodder Yield and Nutrient Uptake in relation to Phosphorus and Sulphur Nutrition
Phosphorus (P) and Sulphur (S) are the most important plant nutrients which play significant roles in enhancing the early growth and development and increasing the fodder yield of maize. This important field study was planned to evaluate the P-S interaction effects on maize growth, fodder yield and nutrient (P and S) uptake. The soil used for study was clay loam, medium-alkaline (pH: 7.9), non-saline (EC: 0.85 dS m-1), strongly calcareous (CaCO3: 24 %), adequate in organic matter (1.6 %), low in ABDTPA-P (3.5 mg kg-1), while medium in SO4-S (21.5 mg kg-1). Eight P and S treatments were involved in this study, i.e. single application of each 90 kg P2O5 (T1) and 20 kg S ha-1 (T2); integration of 90 kg P2O5 with S @ 20, 40 and 60 kg ha-1 (T3, T4 and T5, respectively), and integration of 120 kg P2O5 with S @ 20, 40 and 60 kg ha-1 (T6, T7 and T8, respectively). The experiment followed an RCBD arrangement that was replicated thrice. Recommended seed rate of maize (95 kg ha-1) was used for sowing. The results revealed that shoot biomass production was maximum when maize plants received higher doses of P and S in an integrated manner (120-60 kg P2O5-S ha-1). At 30 DAS, shoot fresh biomass was found maximum, and statistically alike, when 90 or 120 kg P2O5 was integrated with S @ 60 kg ha-1. Shoot fresh biomass was maximum, at 40 DAS when 120-60 kg P2O5-S ha-1 was applied to maize. Shoot dry biomass after 30 days of sowing was highest when 90 kg P2O5 was applied with S @ 60 kg ha-1 or when, 120 kg P2O5 was used with S @ 40 and 60 kg ha-1. Shoot length was maximum, both at 30 and 40 DAS, in case of using 120-60 kg P2O5-S ha-1. Chlorophyll content of maize was maximum, both at 30 and 40 DAS, when 90 kg P2O5 was applied with S @ 60 kg ha-1. Maximum fodder yield of maize was noted when 120 kg P2O5 was applied with 60 kg S ha-1. Highest P-uptake, both at 30 and 40 DAS was noted when 120 kg P2O5 was applied with S @ 60 kg ha-1. At the first stage of growth, S-uptake was highest when 60 kg S was integrated with 90 kg P2O5 ha-1. The study advocated integrated application of 120-60 kg P2O5-S ha-1 for obtaining economically maximum fodder yield of maize.
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