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Diversity of phytophagous and predatory mites in vegetable crops in Himachal Pradesh, India 印度喜马偕尔邦蔬菜作物中植食性和捕食性螨虫的多样性
Q4 Agricultural and Biological Sciences Pub Date : 2024-04-11 DOI: 10.18311/jbc/2024/34862
Vijay Singh, U. Chauhan, V. K. Rana
The surveys carried out in different vegetable growing areas of Himachal Pradesh yielded 25 species of mites belonging to 9 genera under 5 families. Among all, 5 species were phytophagous, 19 were predatory mites and 1 species was of saprophagous mite. On capsicum, a predatory mite of the family Anystidae was recorded for the first time from the state. During the study, majority of predatory mites were recorded on cucumber and brinjal than other vegetables. Four species are the new reports from Himachal Pradesh.
在喜马偕尔邦不同的蔬菜种植区进行的调查发现了 25 种螨虫,隶属于 5 科 9 属。其中,5 种为植食性螨类,19 种为捕食性螨类,1 种为食液性螨类。在辣椒上,首次记录到一种捕食性螨虫,属于安氏螨科。研究期间,黄瓜和青江菜上记录到的捕食性螨虫多于其他蔬菜。喜马偕尔邦新报告了四个物种。
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引用次数: 0
Novel records of parasitoids targeting fall armyworm, Spodoptera frugiperda (J. E. Smith) (Lepidoptera: Noctuidae), in rice-corn-based cropping systems in the Philippines 菲律宾以水稻-玉米为基础的种植系统中针对秋虫 Spodoptera frugiperda (J. E. Smith)(鳞翅目:夜蛾科)的寄生虫的新记录
Q4 Agricultural and Biological Sciences Pub Date : 2024-04-11 DOI: 10.18311/jbc/2024/36513
Evelyn M. Valdez, Ravindra C. Joshi, G. S. Rillon, Kennedy B. DELA CRUZ, D. Donayre, Edwin C. Martin, Femia R. Sandoval, E. Quilang, Muhammad Faheem, Sivapragasam Annamalai
In the Philippines, the Fall Armyworm (FAW) was initially documented infesting corn in June 2019 and rice in May 2021. Relying on commercially available insecticides as the primary, if not exclusive, management strategy raises concerns about potential issues arising from FAW developing resistance to these chemicals, and the associated risks these insecticides pose to non-target organisms and the environment. To address these challenges, it is imperative to explore potential naturally occurring indigenous biological control agents and entomopathogens of the FAW. Regular field samplings and monitoring of FAW and its natural enemies were systematically conducted in selected municipalities of Central and Northern Luzon, as well as the Cagayan Valley regions of the Philippines. FAW larvae suspected of parasitization were collected from the field and subsequently reared in the laboratory for parasitoid emergence and other natural enemies. The parasitoids that emerged were sent to the Centre for Agriculture and Biosciences International United Kingdom (CABI UK) Diagnostic and Advisory Service for identification. Two hymenopteran parasitoids, Brachymeria lasus Walker (Family: Chalcididae) and Copidosoma floridanum (Ashmead) (Family: Encyrtidae), were identified from the lab-reared FAW larval samples. These two FAW parasitoids are new records in the Philippines and elsewhere.
在菲律宾,2019 年 6 月和 2021 年 5 月分别首次记录到秋绵虫(FAW)侵染玉米和水稻。依赖市售杀虫剂作为主要(如果不是唯一)的管理策略,令人担忧秋虫对这些化学品产生抗药性所带来的潜在问题,以及这些杀虫剂对非目标生物和环境造成的相关风险。为应对这些挑战,当务之急是发掘潜在的本地天然生物控制剂和虫媒病原体。在菲律宾吕宋岛中部和北部以及卡加延河谷地区的选定城市,对FAW及其天敌进行了系统的定期实地采样和监测。从田间采集疑似寄生虫的草翅虫幼虫,然后在实验室饲养,以检测寄生虫和其他天敌的出现。出现的寄生虫被送往英国国际农业与生物科学中心(CABI UK)的诊断和咨询服务机构进行鉴定。从实验室饲养的 FAW 幼虫样本中鉴定出了两种膜翅目寄生虫,分别是 Brachymeria lasus Walker(科:Chalcididae)和 Copidosoma floridanum (Ashmead)(科:Encyrtidae)。这两种寄生虫是菲律宾和其他地方的新记录。
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引用次数: 0
In vitro evaluation of microencapsulated Bacillus thuringiensis (Berliner) formulation against Helicoverpa armigera (Hubner) 微胶囊苏云金芽孢杆菌(柏林)制剂对 Helicoverpa armigera (Hubner) 的体外评估
Q4 Agricultural and Biological Sciences Pub Date : 2024-04-11 DOI: 10.18311/jbc/2024/35665
K. AKSHAYA KUMAR, B. Kalmath, B. Kisan, A. Prabhuraj, S. Mallikarjuna, M. Bheemanna
An experiment was conducted to evaluate microencapsulated formulation of  lyophilized spore crystal aggregate of native isolate BGC-1 and reference isolate HD-1 against second instar larvae of Helicoverpa armigera. The results revealed that the microcapsule diameter was ranged from 3.2 to 8.3 µm. Median lethal concentrations of the BGC-1 and Bt-HD1 were 0.66 g/l and 0.50 g/l respectively. UV protectants viz., melanin and para-amino benzoic acid were evaluated by exposing microencapsulated Bacillus thuringiensis to UV A light at 365nm. Among four microencapsulated formulations, BGC-1 with melanin recorded significantly highest mortality of 95.00 per cent at 0h exposure, as time increased, the mortality decreased and HD-1 was on par with BGC-1.
实验评估了本地分离物 BGC-1 和参考分离物 HD-1 的冻干孢子晶体聚合体微胶囊制剂对 Helicoverpa armigera 二龄幼虫的防治效果。结果显示,微胶囊直径在 3.2 至 8.3 微米之间。BGC-1 和 Bt-HD1 的中位致死浓度分别为 0.66 克/升和 0.50 克/升。通过将微胶囊苏云金芽孢杆菌暴露在 365 纳米波长的紫外线 A 光下,对紫外线保护剂(即黑色素和对氨基苯甲酸)进行了评估。在四种微胶囊制剂中,含有黑色素的 BGC-1 在照射 0 小时后的死亡率明显最高,达到 95.00%,随着时间的延长,死亡率有所下降,HD-1 与 BGC-1 不相上下。
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引用次数: 0
Evaluating the efficiency of silver nanoparticles prepared using Pseudomonas fluorescens and Bacillus thuringiensis subsp. tenebrionis in controlling eggs and adults of Callosobruchus maculatus (F.) (Coleoptera: Bruchidae) 评估利用荧光假单胞菌和苏云金芽孢杆菌亚种制备的纳米银颗粒在控制褐飞虱卵和成虫(鞘翅目:褐飞虱科)方面的效率
Q4 Agricultural and Biological Sciences Pub Date : 2024-04-11 DOI: 10.18311/jbc/2024/36151
Istabraq F. Ali, Raghad K. I. AL-JOBOORY, H. I. Al-Shammari
This study aimed to evaluate the efficiency of silver nanoparticles (AgNPs) which are prepared biologically by two bacterial species, Bacillus thuringiensis tenebrionis (Btt) and Pseudomonas fluorescens (P.f) to control southern cowpea beetle insect, Callosobruchus maculatus. Many features of the prepared nanoparticles were examined, and the results obtained showed that the highest absorption value of AgNPs was at 262 nm. Whereas the results of FTIR analysis showed that several compounds played a role in the silver ions reduction process, which included alcohol, alkane, primary amine, and amine group. The scanning electronic microscopic images showed that the average diameter of nanoparticles which was created by P.f was 48.52 nm, while it was 56.08 nm for the nanoparticles prepared by Btt. The study showed no significant differences between the activity of both AgNP types against C. maculatus eggs, while a significant preference was recorded for the activity of Btt AgNPs against the C. maculatus adults. The highest percentage of unhitched eggs was 53.8% recorded at 3000 ppm concentration, while Btt AgNPs gave 59.6% at 3000 ppm. The highest mortality rate of the adults who were treated by Btt AgNPs was 58.8 % at 3000 ppm concentration, while it was recorded 50% at 3000 ppm with P.f AgNPs treatment. The current study demonstrates the efficiency of biologically prepared AgNPs in controlling C. maculatus insect life stages, which encourages using of these nanoparticles as a modern strategy in management of insect pests.
本研究旨在评估由两种细菌(苏云金芽孢杆菌(Btt)和荧光假单胞菌(P.f))生物制备的银纳米粒子(AgNPs)防治南方豇豆甲虫(Callosobruchus maculatus)的效果。对制备的纳米粒子的许多特征进行了研究,结果表明,AgNPs 的最高吸收值在 262 纳米处。傅立叶变换红外光谱分析结果表明,有几种化合物在银离子还原过程中起了作用,其中包括醇、烷、伯胺和胺基。扫描电子显微镜图像显示,P.f 制备的纳米粒子的平均直径为 48.52 nm,而 Btt 制备的纳米粒子的平均直径为 56.08 nm。研究表明,两种类型的 AgNP 对斑马虫卵的活性没有明显差异,而 Btt AgNP 对斑马虫成虫的活性则有明显的偏好。在浓度为 3000 ppm 时,未触杀卵的比例最高,为 53.8%,而在浓度为 3000 ppm 时,Btt AgNPs 的未触杀卵比例为 59.6%。经 Btt AgNPs 处理的成虫在浓度为 3000 ppm 时的死亡率最高,为 58.8%,而经 P.f AgNPs 处理的成虫在浓度为 3000 ppm 时的死亡率为 50%。目前的研究证明了生物制备的 AgNPs 在控制斑潜蝇昆虫生命阶段方面的效率,从而鼓励将这些纳米粒子作为一种现代害虫管理策略。
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引用次数: 0
Apivectoring: Harnessing pollinators for sustainable crop protection and pollination Apivectoring:利用传粉媒介实现可持续的作物保护和授粉
Q4 Agricultural and Biological Sciences Pub Date : 2024-04-11 DOI: 10.18311/jbc/2024/35302
Aarushi Sharma, Devika Sharma
Apivectoring, or Pollinator Biocontrol Vector Technology, employs bees to distribute biological control agents, offering a sustainable solution for managing plant diseases and insect pests while enhancing crop yield and quality. The most commonly used vectors in apivectoring are honey bees and bumble bees, though there’s potential to explore other pollinator species. Commercial dispensers like BeeTreat Dispenser®, BVT Inoculum Dispenser® and Flying Doctors® have been developed in countries like Finland, Belgium, and Canada, respectively. Though initially pioneered in North America, Australia, and Europe, this method is now being evaluated in India. The technology is a promising alternative to chemical pest control, reducing pesticide usage and ensuring crop pollination, although challenges remain in regions deprived of local rearing and/or research facilities.
Apivectoring(授粉生物控制载体技术)利用蜜蜂传播生物控制剂,为管理植物病虫害提供可持续的解决方案,同时提高作物产量和质量。最常用的传粉媒介是蜜蜂和熊蜂,但也有潜力探索其他传粉媒介物种。芬兰、比利时和加拿大等国已分别开发出 BeeTreat Dispenser®、BVT Inoculum Dispenser® 和 Flying Doctors® 等商用施药器。虽然这种方法最初在北美、澳大利亚和欧洲率先使用,但现在印度正在对其进行评估。尽管在缺乏本地饲养和/或研究设施的地区仍存在挑战,但该技术是化学虫害控制的一种有前途的替代方法,可减少杀虫剂的使用并确保作物授粉。
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引用次数: 0
Comparing various bio-intensive pest management modules in rice 比较水稻中的各种生物密集型害虫管理模块
Q4 Agricultural and Biological Sciences Pub Date : 2024-04-11 DOI: 10.18311/jbc/2024/36394
N. VEERAMANIKANTA REDDY, C. Shanker, G. Anitha, D. K. Rana
Rice is the key cereal crop in the tropics, supporting diverse pests and natural enemy populations. Recurrent pest outbreaks and yield losses led farmers to rely on extensive insecticide application, disturbing the stability of rice ecosystems and increasing residues in the harvestable products. A study has been conducted to assess the impact of various modules of Bio-Intensive Pest Management (BIPM) on its conservational potential and sustainability in comparison with Farmers’ Practices (FP) in Nalgonda district of Telangana state during kharif-2020. The BIPM practices included application of farm yard manure; rice husk ash; clipping of seedlings; alleyways and weekly release of Trichogramma japonicum in the main field; wet seed treatment and foliar application with Pseudomonas fluorescens (BIPM 1), Trichoderma asperellum strain TAIK1 (BIPM 2) and Bacillus cabrialesii strain BIK3 (BIPM 3). Whereas, FP 1 with need-based insecticide spraying and FP 2 with schedule-based insecticide spraying and Untreated control with (UC) with no intervention. The observations were taken by visual counts at 15-day intervals. The incidence of Cnaphalocrocis medinalis was highest in UC (9.50), followed by BIPM 1 (7.25) and least in FP 2 (2.50) whereas the highest mean population of Apanteles sp. was found in the untreated control (13.75), followed by BIPM 3 (9.50) and least in FP 2 (4.25). The Benefit Cost Ratios (BCR) of BIPM 3 (1.68) were highest followed by BIPM 1 (1.64) and least in FP 2 (1.40) elucidating that BIPM practices can be more economically feasible. The Shannon-Wiener Index for species diversity and species evenness was higher in BIPM treatments as compared to farmers’ practices indicating the potential of these BIPM treatments in natural pest control and maintaining crop ecosystem stability.
水稻是热带地区的主要谷类作物,支持多种害虫和天敌种群。经常爆发的虫害和产量损失导致农民依赖大量施用杀虫剂,扰乱了水稻生态系统的稳定,增加了可收获产品中的残留。一项研究评估了生物密集型害虫管理(BIPM)的各种模块对其保护潜力和可持续性的影响,并与 Telangana 州 Nalgonda 地区 2020 年种植季节的农民做法(FP)进行了比较。BIPM 方法包括施用农家肥;稻壳灰;剪除秧苗;在主田的巷道和每周释放日本毛蛛;湿种子处理和叶面喷施荧光假单胞菌(BIPM 1)、Trichoderma asperellum 菌株 TAIK1(BIPM 2)和 Bacillus cabrialesii 菌株 BIK3(BIPM 3)。FP 1 按需要喷洒杀虫剂,FP 2 按计划喷洒杀虫剂,而未处理对照(UC)则不采取任何干预措施。每隔 15 天进行一次目测计数。Cnaphalocrocis medinalis 的发生率在 UC 中最高(9.50),其次是 BIPM 1(7.25),FP 2 最低(2.50),而 Apanteles sp. 的平均数量在未处理对照中最高(13.75),其次是 BIPM 3(9.50),FP 2 最低(4.25)。BIPM 3 的效益成本比(BCR)最高(1.68),其次是 BIPM 1(1.64),而 FP 2 的效益成本比最低(1.40),这说明 BIPM 方法在经济上更加可行。与农民的做法相比,BIPM 处理的物种多样性和物种均匀性的香农-维纳指数更高,这表明这些 BIPM 处理在自然虫害控制和维护作物生态系统稳定方面具有潜力。
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引用次数: 0
Population dynamics and diversity of Odonata (insecta) at Mini and Mahi rivers of Gujarat, India 印度古吉拉特邦米尼河和马希河的蜻蜓(昆虫)种群动态和多样性
Q4 Agricultural and Biological Sciences Pub Date : 2024-04-11 DOI: 10.18311/jbc/2024/35378
D. M. Rathod, S. Dholu, B. M. Parasharya
Population dynamics, diversity and community structure of Odonata were studied on three adjacent riparian microecosystems in Vadodara district, Gujarat, India. Population dynamics was studied by observing their population by point count method on three microhabitats (Mini River at Sankarda, Sindhrot and Mahi River at Fazalpur). In the course of a twenty-eight-week study, a total of 4783 Odonata were encountered on three microecosystems. Odonata density 9% throughout September 2014 (39th Meteorological Week) and gained its peak during October 2014 (44th Meteorological Week). A definite drop in the density was observed during November 2014 (48th Meteorological Week) and it achieved precisely 1% throughout December 2014 (51st Meteorological Week). Amongst the three microecosystems, at Fazalpur, species richness began rising from the 4th week of September (6%) and made it to its highest (11%) throughout the 4th week of October. At Sankarda, maximum absolute richness (12.61%) was recorded in 3rd week of October. At Sindhrot, the relative abundance of odonates started increasing in 3rd week of September (7%) and achieved its highest (13%) during 4th week of October. A total of twenty-five species were encountered in the terrain. The diversity index was maximum for Sankarda (2.35) followed by Fazalpur (2.27) and Sindhrot (2.01). A total of four species (Ditch Jewel (26.6%), Pigmy Dartlet (19.5%), Green Marsh Hawk (10.3%) and Senegal Golden Dartlet (8.3%) were dominant in all three microhabitats.
在印度古吉拉特邦瓦多达拉县的三个相邻河岸微型生态系统中研究了蜻蜓的种群动态、多样性和群落结构。研究人员在三个微型栖息地(桑卡达的迷你河、辛德罗特和法扎尔布尔的马希河)上采用点计数法观察其种群动态。在为期 28 周的研究过程中,共在三个微型生态系统中发现了 4783 只蜻蜓。在整个 2014 年 9 月(第 39 个气象周),蜻蜓密度为 9%,在 2014 年 10 月(第 44 个气象周)达到高峰。在 2014 年 11 月(第 48 个气象周)观察到密度明显下降,而在 2014 年 12 月(第 51 个气象周)恰好达到 1%。在三个微型生态系统中,法扎尔布尔的物种丰富度从 9 月第 4 周(6%)开始上升,并在 10 月第 4 周达到最高(11%)。在 Sankarda,10 月第 3 周记录到的绝对丰富度最高(12.61%)。在信德罗特,鸟类的相对丰富度从 9 月第 3 周开始增加(7%),在 10 月第 4 周达到最高(13%)。地形中总共发现了 25 个物种。桑卡达的多样性指数最高(2.35),其次是法扎尔布尔(2.27)和信德罗特(2.01)。在所有三个微生境中,共有四种鸟类(沟瑰(26.6%)、猪镖(19.5%)、绿沼鹰(10.3%)和塞内加尔金镖(8.3%)占优势。
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引用次数: 0
Entomopathogens and their role in insect pest management 昆虫病原体及其在害虫管理中的作用
Q4 Agricultural and Biological Sciences Pub Date : 2024-04-11 DOI: 10.18311/jbc/2024/35752
KONTHOUJAM AMBEDKAR SINGH, Iddi Nangkar, Amol Landge, Meenakshi Rana, Seweta Srivastava
Agricultural production faces significant challenges due to the loss of crop yields, highlighting the need for improvements in pest management methods to enhance productivity. Crop growers are increasingly pressured to minimize the use of chemical pesticides without compromising yields. However, managing pests has become more challenging due to pesticide resistance and limited product availability. Consequently, there is an urgent requirement for alternative approaches. Entomopathogens such as fungi, bacteria, viruses, and nematodes emerge as promising alternatives to broad-spectrum chemical insecticides. They have been widely employed to control insect pests in cultivated crops, employing successful strategies such as augmentation and classical biological control. These methods involve applying or introducing bacteria, baculoviruses, fungi, and nematodes. Utilizing entomopathogens offers numerous benefits beyond their effectiveness. These advantages encompass the capacity to treat expansive areas with a sole application, ensuring safety for both humans and non-target organisms. Additionally, their use leads to decreased pesticide residues in food, the conservation of natural enemies, and a boost in biodiversity within managed ecosystems. Entomopathogens present a viable solution by offering effective pest control while addressing environmental, human health, and ecosystem sustainability concerns. The primary emphasis of this review is on the present condition of bio-formulations, the pathogenicity associated with entomopathogens, their mode of action, and the possible implementation of diverse microbial formulations aimed at achieving sustainable pest management.
由于作物减产,农业生产面临着巨大挑战,这凸显了改进害虫管理方法以提高生产力的必要性。作物种植者面临的压力越来越大,他们必须在不影响产量的前提下尽量减少化学农药的使用。然而,由于杀虫剂的抗药性和产品供应有限,害虫管理变得更具挑战性。因此,迫切需要替代方法。真菌、细菌、病毒和线虫等昆虫病原体有望成为广谱化学杀虫剂的替代品。它们已被广泛用于控制栽培作物中的害虫,并采用了增效和经典生物防治等成功策略。这些方法涉及应用或引入细菌、杆状病毒、真菌和线虫。利用昆虫病原体除了效果显著外,还能带来许多好处。这些优势包括只需施用一次,就能对大面积区域进行处理,确保人类和非目标生物的安全。此外,使用昆虫病原体还能减少食物中的杀虫剂残留、保护天敌以及提高受管理生态系统的生物多样性。昆虫病原体是一种可行的解决方案,既能有效控制害虫,又能解决环境、人类健康和生态系统可持续性等问题。本综述的主要重点是生物制剂的现状、与昆虫病原体相关的致病性、其作用模式以及为实现可持续害虫管理而可能采用的各种微生物制剂。
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引用次数: 0
Ultrastructure and morphometric characteristics of Oecophylla smaragdina (Fabricius, 1775) (Hymenoptera: Formicidae) Oecophylla smaragdina (Fabricius, 1775) (Hymenoptera: Formicidae) 的超微结构和形态特征
Q4 Agricultural and Biological Sciences Pub Date : 2024-04-11 DOI: 10.18311/jbc/2024/35481
M. Karthick, B. Samuel, Iruthaya Kalai Selvam, C. SAGAYA RANI, R. AZHAGU RAJ
In this study, we explored various aspects of Oecophylla smaragdina, a potential biocontrol agent, evolution by examining its morphometric characteristics. We employed an intensive All-out search method (AOSM) to gather specimens from multiple locations in Vadakku Karaseri, Tamil Nadu. Our analysis involved measuring 16 morphological traits and indices, including Total Length, Head Width, Head Length, Eye Length and more, using specimens from five colonies in each locality. By calculating various morphometric indices, we assessed specific features and conducted a Principal Component Analysis (PCA) to determine the significance of head-related variables, antennae, and body size in shaping morphometric variation. Our study also revealed positive and negative associations between different morphometric variables, as highlighted by Pearson correlation coefficients. Furthermore, we used a Scanning Electron Microscope to examine the ultrastructure of the abdomen, revealing distinct features such as a one-jointed pedicel and modifications of the poison gland and stings. This comprehensive research provides valuable insights into O. smaragdina morphometric characteristics, enhancing our understanding of its variability and potential adaptations in various habitats.
在本研究中,我们通过研究潜在生物控制剂 Oecophylla smaragdina 的形态特征,探索了其进化的各个方面。我们采用了密集的全面搜索法(AOSM),从泰米尔纳德邦 Vadakku Karaseri 的多个地点采集标本。我们的分析涉及测量 16 种形态特征和指数,包括总长、头宽、头长、眼长等,使用的标本来自每个地点的五个群落。通过计算各种形态指数,我们评估了具体特征,并进行了主成分分析(PCA),以确定头部相关变量、触角和体型在形成形态变化方面的重要性。我们的研究还揭示了不同形态变量之间的正相关和负相关,皮尔逊相关系数突出显示了这一点。此外,我们还利用扫描电子显微镜检查了腹部的超微结构,发现了单节腹梗、毒腺和毒刺的改变等明显特征。这项全面的研究为我们了解 O. smaragdina 的形态特征提供了宝贵的资料,加深了我们对其变异性和在不同生境中的潜在适应性的理解。
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引用次数: 0
Functional response of green lacewing, Chrysoperla zastrowi silemmi (Esben-Petersen) to its prey, cabbage aphid, Brevicoryne brassicae L. 绿蛉 Chrysoperla zastrowi silemmi (Esben-Petersen) 对其猎物甘蓝蚜 Brevicoryne brassicae L 的功能反应
Q4 Agricultural and Biological Sciences Pub Date : 2023-11-30 DOI: 10.18311/jbc/2022/35545
P. Sree Chandana, Anil Sood, P. Sharma
Functional response influences the prey-predator interactions and hence is crucial for assessing the predatory potential of a given species. Laboratory studies were conducted at Dr. Y. S. Parmar University of Horticulture and Forestry, Solan, Himachal Pradesh, India during 2019-20 to assess the functional response of a generalist predator, Chrysoperla zastrowi sillemi (Esben-Petersen) (Neuroptera: Chrysopidae) against the cabbage aphid, Brevicoryne brassicae L. The feeding efficiency of larvae of C. zastrowi sillemi against varying densities of aphid i.e. 5, 10, 15, 20 and 30 was evaluated. The number of aphids consumed differed with prey densities and it was in direct proportion to the host density. All the three instars of C. zastrowi sillemi followed type II functional response. The attack rate (a) of the third instar larvae was maximum compared to first and second instars indicating the higher efficiency of later instar in prey consumption. Other parameters viz., the effectiveness of predator (a/th) and maximum predation rate (K) also followed similar trend while the prey handling time (Th) by the first instar took longer period (0.50 h) compared to second and third instars (0.46 h and 0.27 h, respectively). Searching efficiency was highest in the third instar which can be attributed to the higher mobility of fully grown larvae.
功能反应会影响猎物与捕食者之间的相互作用,因此对于评估特定物种的捕食潜力至关重要。2019-20年期间,印度喜马偕尔邦索兰的Y. S. Parmar博士园艺与林业大学进行了实验室研究,以评估通性捕食者Chrysoperla zastrowi sillemi(Esben-Petersen)(神经翅目:Chrysopidae)对甘蓝蚜虫Brevicoryne brassicae L.的功能反应。评估了 C. zastrowi sillemi 幼虫对不同密度的蚜虫(即 5、10、15、20 和 30 头)的取食效率。消耗的蚜虫数量随猎物密度的不同而不同,并且与寄主密度成正比。C. zastrowi sillemi 的三个蜕期都遵循第二型功能反应。与第一和第二龄幼虫相比,第三龄幼虫的攻击率(a)最大,这表明第二龄幼虫消耗猎物的效率更高。第一龄幼虫处理猎物的时间(Th)比第二龄和第三龄幼虫(分别为 0.46 小时和 0.27 小时)长(0.50 小时)。第三龄幼虫的搜寻效率最高,这可能是由于完全长大的幼虫具有较高的活动能力。
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Journal of Biological Control
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