The effects of rearing density on growth, survival, and starvation resistance of the house cricket Acheta domesticus

IF 1 Q3 ENTOMOLOGY

Journal of Orthoptera Research Pub Date : 2023-02-21 DOI:10.3897/jor.32.86496

Siyumi Mahavidanage, Tamara M. Fuciarelli, Xiaobing Li, C. D. Rollo

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引用次数: 1

Abstract

Alternative food sources have become an important focus of research due to increased food demand coupled with reductions in traditional food productivity. In particular, substitutes for protein sources have been of increasing interest due to the unsustainability of traditional protein sources. Insects have been identified as a sustainable alternative to traditional protein sources, as they are easy to produce and contain essential proteins, fats, and minerals. However, mass-rearing insects requires similar considerations as farming traditional protein sources. To increase productively, growth and survival must be maximized at the highest possible densities while minimizing disease and food requirements. Here, we use the house cricket Acheta domesticus, a highly cultivated insect species, to investigate optimal densities for mass rearing at 14 days of age (4th instar). Nymphs were separated into density groups of 0.09, 0.19, 0.47, and 0.93 cricket/cm2 and monitored for growth and survival. Multiple regression revealed sex (p < 0.0001), density (p < 0.0001), and sex*density interaction (p = 0.0345) as predictors of growth rate. Survival to maturation was significantly reduced in both 0.47 (31%) and 0.93 (45%) cricket/cm2 groups compared to the controls. A second experiment was then conducted to investigate the starvation resistance of adult crickets reared from 14 days of age at 0.09, 0.19, 0.93, and 1.86 cricket/cm2. A second multiple regression analysis revealed only density (p < 0.0001) and to a lesser extent sex (p = 0.0005) to be predictors of starvation resistance. These results indicate that mass-rearing house crickets is most optimal at densities < 0.93 cricket/cm2, where impacts on survival and starvation are minimal. Although these results have implications for cricket mass rearing, research on other endpoints, including reproduction and the synergistic effects of other environmental factors, such as temperature and humidity, should be conducted.

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饲养密度对家蟋蟀生长、存活和抗饥饿能力的影响

由于粮食需求的增加和传统粮食生产率的下降，替代粮食来源已成为研究的重要焦点。特别是，由于传统蛋白质来源的不可持续性，蛋白质来源的替代品越来越受到关注。昆虫已被确定为传统蛋白质来源的可持续替代品，因为它们易于生产，并含有必需的蛋白质、脂肪和矿物质。然而，大规模饲养昆虫需要与养殖传统蛋白质来源类似的考虑因素。为了提高生产力，必须在尽可能高的密度下最大限度地提高生长和存活率，同时最大限度地减少疾病和食物需求。在这里，我们使用家蟋蟀Acheta domesticus，一种高度栽培的昆虫物种，来研究14日龄（4龄）大规模饲养的最佳密度。将睡莲分为0.09、0.19、0.47和0.93蟋蟀/cm2的密度组，并监测其生长和存活情况。多元回归显示，性别（p＜0.0001）、密度（p＜0.001）和性别*密度相互作用（p＝0.0345）是生长率的预测因素。与对照组相比，0.47（31%）和0.93（45%）蟋蟀/cm2组的成熟存活率均显著降低。然后进行第二个实验，以研究从14日龄开始以0.09、0.19、0.93和1.86蟋蟀/cm2饲养的成年蟋蟀的饥饿抵抗力。第二项多元回归分析显示，只有密度（p＜0.0001）和性别（p＝0.0005）是抵抗饥饿的预测因素。这些结果表明，在密度<0.93蟋蟀/cm2的条件下，大规模饲养蟋蟀是最理想的，对生存和饥饿的影响最小。尽管这些结果对蟋蟀的大规模饲养有影响，但应该对其他终点进行研究，包括繁殖和其他环境因素（如温度和湿度）的协同效应。

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

Journal of Orthoptera Research Agricultural and Biological Sciences-Insect Science

CiteScore

1.90

自引率

25.00%

发文量

审稿时长

12 weeks