Enhancing yield of lettuce through irrigation and nitrogen management in a subtropical Inceptisol

IF 0.9 4区生物学 Q4 PLANT SCIENCES

Israel Journal of Plant Sciences Pub Date : 2023-01-11 DOI:10.1163/22238980-bja10071

S. Patra, S. Sengupta, P. Bhattacharya, K. Bhattacharyya

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Abstract

To address the dearth of management of lettuce in the Indo-Gangetic plains, field experiment was conducted on a sandy loam Inceptisol for optimizing the irrigation, nitrogen requirement and economics of lettuce for three years. Four irrigation levels (conventional, I1 and irrigation at 0.6, 0.8, 1.0 irrigation water to cumulative pan evaporation (IW/CPE) ratio, as I2, I3 and I4) and three nitrogen management (100% recommended dose of N i.e., RDN as inorganic, N1; 50:50% RDN as inorganic: vermicompost, N2 and 100% RDN as vermicompost, N3) was laid out in thrice replicated split plot design. All the major physiological characteristics like plant height, number of leaves, average head diameter was improved with I4, N2 and their interaction (I4N2). Maximum average head yield (10.6 t ha-1) was obtained with I4 and I3, 10.5 t ha-1 for N2, while I4N2 yielded 11.3 t ha-1. Maximum water productivity (11.8 kg m-3) was obtained under I2N2. A strong non-linear relationship was detected between yield with irrigation water applied (). Higher soil moisture extraction (80.2%) in top 0–30 cm and lower (19.8%) for 30–45 cm depth and maximum leaf dry matter yield, nutrient concentrations and uptake was found with I4N2 and I3N2. The moderate deficit irrigation and optimum nutrient at I3N2 was found best for optimizing yield, higher water productivity, nitrogen economy and monetary returns of lettuce.

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亚热带Inceptisol通过灌溉和氮管理提高生菜产量

为了解决印度-恒河平原莴苣缺乏管理的问题，在沙壤土Inceptisol上进行了为期三年的田间试验，以优化莴苣的灌溉、氮需求和经济性。在三次重复的分块设计中，设置了四个灌溉水平（常规灌溉、I1和0.6、0.8、1.0灌溉水与累积蒸发量（IW/CPE）的比率，即I2、I3和I4）和三个氮管理（100%推荐氮剂量，即RDN为无机物，N1；50:50%RDN为有机物：蚯蚓堆肥，N2和100%RDN为蚯蚓堆肥，N3）。I4、N2及其相互作用（I4N2）改善了株高、叶片数、平均头径等主要生理特性。在I4和I3中获得了最大平均水头产量（10.6 t ha-1），N2为10.5 t ha-1，而I4N2为11.3 t ha-1。最大水生产率（11.8 kg m-3）。产量与灌溉水量之间存在强烈的非线性关系（）。顶部0-30的土壤水分提取率较高（80.2%） 30–45厘米及以下（19.8%） cm深度和最大叶干物质产量、养分浓度和吸收。适度亏缺灌溉和I3N2的最佳营养条件最有利于优化生菜的产量、提高水分生产率、氮经济性和经济效益。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Israel Journal of Plant Sciences 生物-植物科学

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Israel Journal of Plant Sciences is an international journal of extensive scope that publishes special issues dealing with all aspects of plant sciences, including but not limited to: physiology, cell biology, development, botany, genetic