Study of Population Dynamics of Insect-pests in Different Growing Environments and their Relationship with Microclimate of Pigeonpea Cultivars

Agricultural Reviews Pub Date : 2023-10-23 DOI:10.18805/ag.r-2617

Rajesh Kumar, Ram Niwas, M.L. Khichar, Mohit Kamboj, Kartik .

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引用次数: 0

Abstract

Background: Pigeonpea is a low input, rainfed crop that provides economic returns every part of the plant. Insect-pests are the major biotic constraints limiting the productivity of this crop. Keeping all these factors in mind, the present experiment was conducted to study the population dynamics of insect-pests in different growing environments and their relationship with microclimate of pigeonpea cultivars. Methods: A field experiment was conducted at research farm of Department of Agricultural Meteorology, Chaudhary Charan Singh Haryana Agricultural University, Hisar, during Kharif season 2017. Insect-pests population was recorded from the five tagged plants at weekly interval starting from 38th standard meteorological week (SMW) till harvesting of the crop. Ground sheet method was used to record the population of larvae of M. vitrata and H. armigera. Larvae of M. vitrata and H. armigera falling on cloth sheet of size 60 cm × 60 cm laid near plant stem were counted. Web formed by M. vitrata larvae were visually counted and then removed to count larvae feeding inside the webs. Result: In our experiment, it was found that H. armigera infestation started from 38th SMW in all the varieties and D1 and D2 sown crop while in D3 sown crop it started in 40th SMW. On the other hand the larval population of M. vitrata started from 38th SMW, 39th SMW and 40th SMW in all varieties and D1, D2 and D3 sown crops, respectively where as the formation of webs in all the varieties and D1 sown crop started from 38th SMW while in D2 and D3 sown crops started from 39th SMW and continued till 45th SMW. Mean larval population of H. armigera, M. vitrata and number of webs per plant was found highest in D1 sown crop on variety Manak.

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不同生长环境下鸽豌豆品种害虫种群动态及其与小气候关系的研究

背景:鸽豆是一种低投入的雨养作物，为植物的每个部分提供经济回报。害虫是限制这种作物生产力的主要生物制约因素。基于以上因素，本试验研究了不同生长环境下鸽豆品种害虫种群动态及其与小气候的关系。方法:2017年秋冬季节，在希萨尔乔杜里·查兰·辛格哈里亚纳邦农业大学农业气象系研究农场进行田间试验。从第38个标准气象周(SMW)开始，直到作物收获，每隔一周记录5个标记植株的害虫种群。采用地面记录法记录了vitrata和armigera的幼虫数量。用60 cm × 60 cm布片对vitrata和H. armigera幼虫进行计数。目视计数vitrata幼虫形成的网，然后移除以计数在网内取食的幼虫。结果:在我们的试验中，所有品种和D1、D2播种作物的棉铃虫侵染开始于第38个SMW，而D3播种作物的棉铃虫侵染开始于第40个SMW。另一方面，所有品种和D1、D2、D3种播种作物的vitrata幼虫种群分别从第38、39和40个播种作物开始，其中所有品种和D1种播种作物的幼虫网形成始于第38个播种作物，D2和D3种播种作物的幼虫网形成始于第39个播种作物，并持续到第45个播种作物。马纳克品种D1播种作物棉铃虫、vitrata平均幼虫数量和单株网数最高。

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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Agricultural Reviews

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