Standard metabolic rate variation among New Zealand Orthoptera

IF 2.2 Q1 ENTOMOLOGY Current Research in Insect Science Pub Date : 2024-01-01 DOI:10.1016/j.cris.2024.100092
Mariana Bulgarella , John Haywood , Eddy J. Dowle , Mary Morgan-Richards , Steven A. Trewick
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Abstract

Standard metabolic rates (SMR) of ectotherms reflect the energetic cost of self-maintenance and thus provide important information about life-history strategies of organisms. We examined variation in SMR among fifteen species of New Zealand orthopteran. These species represent a heterogeneous group with a wide geographic distribution, differing morphologies and life histories. Gathering original data on morphological and physiological traits of individual species is a first step towards understanding existing variability. Individual metabolic rates of ectotherms are one of the first traits to respond to climate change. Baseline SMR datasets are valuable for modeling current species distributions and their responses to a changing climate. At higher latitudes, the average environmental temperature decreases. The pattern that cold-adapted ectotherms display higher SMR at colder temperatures and greater thermal sensitivity to compensate for lower temperatures and the shorter growing and reproductive seasons is predicted from the metabolic cold adaptation (MCA) hypothesis. We predict higher SMR for the orthopteran species found at higher latitudes. We further compared the index of thermal sensitivity Q10 per species. We used closed-system respirometry to measure SMR, at two test temperatures (4 °C and 14 °C), for the fifteen species acclimated to the same conditions. As expected, we found significant differences in SMR among species. The rate of oxygen consumption was positively correlated with body mass. Our findings do not support the MCA hypothesis. In fact, we found evidence of co-gradient variation in SMR, whereby insects from higher elevations and latitudes presented lower SMR. We discuss our findings in relation to life histories and ecology of each species. The novel physiological data presented will aid in understanding potential responses of these unusual species to changing climatic conditions in Aotearoa/New Zealand.

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新西兰直翅目昆虫的标准代谢率变化
外温动物的标准代谢率(SMR)反映了自我维持的能量成本,因此为生物的生命史策略提供了重要信息。我们研究了 15 种新西兰直翅目昆虫的标准代谢率差异。这些物种是一个异质群体,地理分布广泛,形态和生活史各不相同。收集个体物种形态和生理特征的原始数据是了解现有变异性的第一步。外温动物的个体代谢率是最早对气候变化做出反应的特征之一。基线 SMR 数据集对于模拟当前物种分布及其对气候变化的反应非常有价值。在高纬度地区,平均环境温度降低。根据代谢冷适应(MCA)假说的预测,适应寒冷的外温动物在较低温度下会表现出更高的SMR和更高的热敏感性,以补偿较低的温度以及较短的生长和繁殖季节。我们预测在高纬度地区发现的直翅目物种具有更高的热敏感性。我们进一步比较了每个物种的热敏感性指数 Q10。我们使用封闭系统呼吸测定法,在两个测试温度(4 °C和14 °C)下测量适应相同条件的15个物种的SMR。不出所料,我们发现不同物种的 SMR 存在显著差异。耗氧量与体重呈正相关。我们的研究结果并不支持MCA假说。事实上,我们发现了SMR共梯度变化的证据,即海拔和纬度较高的昆虫的SMR较低。我们将结合每个物种的生活史和生态学来讨论我们的发现。所提供的新生理数据将有助于了解这些不寻常物种对奥特亚罗瓦/新西兰不断变化的气候条件的潜在反应。
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来源期刊
Current Research in Insect Science
Current Research in Insect Science Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
3.20
自引率
0.00%
发文量
22
审稿时长
36 days
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