西孟加拉邦沿海蔬菜种植的纳米尿素

Journal of the Indian Society of Coastal Agricultural Research Pub Date : 2023-06-30 DOI:10.54894/jiscar.41.1.2023.135357

UTTAM KUMAR MANDAL, SUDIPA MAL, APU KUMAR NAIYA, AMIT GHOSH, DIBYENDU BIKAS NAYAK, SAHEB DIGAR, RINCHEN NOPU BHUTIA, T.D. LAMA, D. BURMAN, K.K. MAHANTA, S.K. SARANGI, S. RAUT, A.K. BHARDWAJ

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引用次数: 0

摘要

纳米肥料的出现是为了减少无机肥料的使用，减少肥料对环境的拮抗作用。为了研究IFFCO纳米尿素在秋葵(Abelmoschus esculentus)种植中的效果，于2022年秋收季节在印度西孟加拉邦沿海地区采用随机区组设计(RBD)进行了田间试验。处理T1 =不施肥;T2 =推荐施肥剂量@ 90:45:45 kg ha-1:: N:P2O5:K2O;T3 = 1/3 N尿素，PK + 1/3 N尿素+ 1/3 N纳米尿素当量(纳米);T4 = 1/3 N尿素，PK + 1/3 N纳米+ 1/3 N纳米;T5 = 1/3 N纳米，PK + 1/3 N纳米+ 1/3 N纳米。氮分3次施用，磷和钾作为基肥施用。用Trimble Green Seeker播种50 d后记录植株活力。T2和T3的归一化植被指数(NDVI)最高，T1最低。秋葵在T2产量最高，而在T1、T3、T4和T5分别减产44.7%、18.5%、38.1%和41.2%。果实含氮量在T2也最高(以干重计为2.31%)。与纳米尿素处理地块(0.74 ~ 0.85 mg L-1)相比，T2处理的渗滤液中硝酸盐含量最高(1.22 mg L-1)。温室气体测量结果表明，与常规颗粒尿素相比，纳米尿素的N2O排放量减少了0.79 ~ 1.71 mg m-2 day-1，而常规颗粒尿素的N2O排放量为2.85 mg m-2 day-1。田间试验表明，施用纳米尿素会造成产量损失，但与常规尿素相比，纳米尿素在渗滤液中硝酸盐含量最低和N2O排放量低方面具有环境效益。

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Nano-urea for Vegetable Cultivation in Coastal West Bengal

Nano-fertiliser has come up to reduce the use of inorganic fertilisers and to reduce the antagonistic effects of fertilizers on the environment. A field experiment was laid out under the randomised block design (RBD) in coastal West Bengal, India during kharif season of 2022 to examine the efficacy of IFFCO nano-urea in okra (Abelmoschus esculentus) cultivation. The treatments were T1 = no fertiliser; T2 = recommended fertiliser dose @ 90:45:45 kg ha-1:: N:P2O5:K2O; T3 = 1/3 N urea, PK + 1/3 N urea + 1/3 N nano-urea on equivalent basis (nano); T4 = 1/3 N urea, PK + 1/3 N nano + 1/3 N nano; T5 = 1/3 N nano, PK + 1/3 N nano + 1/3 N nano. Nitrogen was applied in three split doses whereas P and K were applied as basal. The plant vigour was recorded 50 days after sowing using Trimble Green Seeker. T2 and T3 recorded significantly higher normalised difference vegetation index (NDVI) values, and T1 recorded the lowest. Maximum okra yield was recorded in T2 whereas 44.7%, 18.5%, 38.1% and 41.2% yield reductions were recorded in T1, T3, T4, and T5, respectively. Fruit nitrogen content was also maximum in T2 (2.31% on a dry weight basis). The nitrate content in leachate was maximum in T2 (1.22 mg L-1) as compared to nano urea treated plots (0.74-0.85 mg L-1). The results of GHG measurement showed that the N2O emission decreased to 0.79-1.71 mg m-2 day-1 with nano-urea in comparison to 2.85 mg m-2 day-1 with conventional prilled urea. The field experiment showed that there was a yield penalty in case of nano-urea application but it has environmental benefits in terms of minimum nitrate level in leachate and low N2O emissions than the conventional urea application.

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Journal of the Indian Society of Coastal Agricultural Research

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