Effect of Rates and Sources of N Fertilizer Application on Dynamics of Rice Brown Leaf Spot Disease (Bipolaris oryzae) Incidences in the Dry Zone of Sri Lanka

Journal of Tropical Crop Science Pub Date : 2022-10-20 DOI:10.29244/jtcs.9.03.165-173

Chamarika Priyadashani, D. Wickramasinghe, C. Egodawatta, D. Beneragama, P. Weerasinghe, U. Devasinghe

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Abstract

Nitrogen inputs; sources or application amounts are key determinants of yield determination and determination of resistance or sensitivity to pathogen activities. This study aimed at assessing the impact of source and rate of application of N fertilizers on Rice Brown Leaf Spot (RBLS) disease incidences and dynamics in lowland irrigated rice crops. Leaf N using relative leaf chlorophyll content, leaf N concentration and crop yield were assessed during the wet 2018/19, 2019/20 and 2020/21 seasons and dry 2019 and 2020 seasons in the field research facility of Rajarata University of Sri Lanka. The conventional systems (The Department of Agriculture recommended inorganic fertilizer application at 100% N), integrated system (50% N with conventional through inorganic fertilizer and 25% N with organic manure mixture), and organic system (50% of N conventional through organic manure) were tested using a new improved rice variety Bg300, using a randomized complete block design with six replicates. Wet and dry seasons were contrastingly different in disease prevalence, where critical levels of incidences were visible earlier in the wet season compared to the dry season. Initial stages of the study, organic systems resulted in higher disease incidences, thus reaching infections of the full crop before conventional and integrated. Several seasons of continuous organic manure incorporation enhanced the resistance of organic systems to RBLS disease compared to the rest. The leaf N concentrations were higher in conventional, thus the RBLS incidences were relatively low, due to negative correlations between disease incidences. Rice yields also resulted in a significant negative correlation with disease incidences and were diminished in integrated and organic systems later. The yield suppression due to diseases such as RBLS in organic transition can be overcome by using an integrated approach and building a balanced substitutable nutrient management strategy.

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施氮量和施氮源对斯里兰卡干旱地区水稻褐叶斑病发病动态的影响

氮输入;来源或施用量是产量测定和对病原菌活性的抗性或敏感性测定的关键决定因素。本研究旨在探讨氮肥来源和施氮量对水稻褐叶斑病(RBLS)发病及动态的影响。在斯里兰卡拉贾拉塔大学野外研究设施，利用叶片相对叶绿素含量、叶片氮浓度和作物产量评估了2018/19、2019/20和2020/21雨季和2019和2020旱季的叶片氮含量。以良种水稻Bg300为试验材料，采用6个重复的随机完全区组设计，试验采用常规系统(农业部推荐100%施无机肥)、综合系统(50%施常规+无机肥，25%施有机肥混合)和有机系统(50%施常规+有机肥)。在疾病流行方面，湿季和旱季截然不同，与旱季相比，湿季早期的发病率达到了临界水平。在研究的初始阶段，有机系统导致了更高的疾病发病率，因此在常规和综合系统之前达到了全作物的感染。连续施用几个季节的有机肥增强了有机系统对RBLS病的抵抗力。常规水稻叶片氮浓度较高，由于病害发病率呈负相关关系，因此RBLS发病率相对较低。水稻产量也与病害发病率呈显著负相关，随后在综合系统和有机系统中下降。通过综合治理和建立均衡的可替代养分管理策略，可以克服有机过渡过程中RBLS等病害对产量的抑制。

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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Journal of Tropical Crop Science

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