Impact of Paddy Straw Incorporation along with Different Fertilizer Doses on Mineral N Dynamics and GHG Emissions

International Journal of Plant & Soil Science Pub Date : 2024-04-04 DOI:10.9734/ijpss/2024/v36i54565

C. Ravali, G. Jayasree, K. S. Reddy, G. Pratibha, S. Triveni

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Abstract

Aim: An incubation experiment was conducted, which aimed to investigate NH4+ and NO3- release pattern and GHG emissions as influenced by paddy residue decomposition over 120 days. Study Design: Completely randomized block design. Place and Duration of Study: The study was conducted at Agrometerology laboratory, CRIDA, Hyderabad. The experiment was conducted between 2021-22. Methodology: Sampling was performed at 2, 4, 6, 8, 10, 20, 30, 45, 60, 75, 90, 105 and 120 days after incubation (DAI). The treatments included control (T1), soil + N (T2), paddy residue + 100% RDN (Recommended dose of Nitrogen) - 33:33:33 (T3), paddy residue + 100% RDN - 43:23:33 (T4), paddy residue + 100% RDN - 43:33:23 (T5), paddy residue + 10% extra RDN - 43:23:33 (T6). Fertilizer N was applied in three splits (first at initiation of experiment, second and third at 30 and 60 DAI respectively). RDN used in the study was 240 kg ha-1 (i.e., maize). Results: Residue incorporation along with inorganic fertilizer significantly influenced NH4+ - N and NO3- - N, as well as GHG emissions. After addition of each split, there was an increase in NH4+ - N and NO3- - N contents. Significantly higher NH4+ - N and NO3- - N was recorded in T6, compared to other treatments. The cumulative CO2 and N2O emissions were significantly higher in paddy residue + 10 % extra RDN – 43:23:33 i.e., 296.63 µg C g-1 of soil and 1.81 µg N g-1 of soil respectively, while lowest (42.59 µg C g-1 of soil and 0.09 µg N g-1 of soil respectively) was observed in control.

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水稻秸秆掺入不同剂量的肥料对矿物氮动态和温室气体排放的影响

研究设计：完全随机区组设计：完全随机区组设计：研究在海得拉巴 CRIDA 农业计量学实验室进行。实验时间为 2021-22 年：取样时间为孵化后 2、4、6、8、10、20、30、45、60、75、90、105 和 120 天（DAI）。处理包括对照（T1）、土壤+氮（T2）、水稻秸秆+100% RDN（氮的推荐剂量）-33:33:33（T3）、水稻秸秆+100% RDN-43:23:33（T4）、水稻秸秆+100% RDN-43:33:23（T5）、水稻秸秆+10% 额外 RDN-43:23:33（T6）。氮肥分三次施用（第一次在试验开始时，第二次和第三次分别在 30 和 60 DAI 时）。研究中使用的 RDN 为 240 千克/公顷（即玉米）：结果：在施用无机肥料的同时施用残留物对 NH4+ - N 和 NO3- - N 以及温室气体排放有显著影响。每种肥料混合施用后，NH4+ - N 和 NO3- - N 的含量都有所增加。与其他处理相比，T6 的 NH4+ - N 和 NO3- - N 含量明显更高。水稻秸秆 + 10 % 额外 RDN - 43:23:33 的累积 CO2 和 N2O 排放量明显较高，分别为 296.63 µg C g-1 土壤和 1.81 µg N g-1 土壤，而对照组最低（分别为 42.59 µg C g-1 土壤和 0.09 µg N g-1 土壤）。

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International Journal of Plant & Soil Science

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