Timing is everything: Improving predictions of winter New Zealand grass grub densities and associated damage from summer and autumn larval counts

Q3 Agricultural and Biological Sciences

New Zealand Plant Protection Pub Date : 2023-09-25 DOI:10.30843/nzpp.2023.76.11773

Mark McNeill, Russell Croy, Chikako Van Koten, Shengjing Shi

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引用次数: 0

Abstract

Costelytra giveni is a serious pasture pest in New Zealand and accurate estimates of population densities are important to inform control measures. This species generally has a one-year life cycle so populations should either remain stable after eggs have hatched or decline due to larval mortality. Larval counts were obtained using a simple, standard and widely used sampling method from a series of soil cores collected from ryegrass research plots in Canterbury, New Zealand between 27 January and 16 June 2021 and a significant increase in population was recorded. Measurements on 27 January, 19 March and 5 May, represented only c. 8%, 25% and 63% of the mean densities measured on 16 June, respectively. The apparent increase in larvae is attributed to failure to find small 1st and 2nd instar individuals within the soil samples. Larvae increased in size as they transitioned from 1st to 3rd instar and later instar specimens were more easily discovered. An equation to describe the observed results provided date-related correction factors to allow a more realistic prediction of C. giveni larval densities in the winter following empirical larval counts. Larval counts measured on 27 January, 19 March, and 5 May, would need to be multiplied by 13, 4 and 1.6, respectively, to accurately estimate the larval density found on 16 June. This study showed that summer-autumn sampling using the current method can significantly underestimate winter C. giveni larval densities, potentially leading to unanticipated pasture production losses. Similar results were also found in 2022. While the equation provides a guide to population estimates, the caveat is that region and environment will influence population trends in any particular year.

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时间决定一切:改善冬季新西兰草蛴螬密度的预测，以及夏季和秋季幼虫数量带来的相关损害

Costelytra giveni是新西兰一种严重的牧场害虫，准确估计种群密度对采取控制措施至关重要。这一物种通常有一年的生命周期，因此在卵孵化后种群数量应该保持稳定，或者由于幼虫死亡而减少。在2021年1月27日至6月16日期间，通过从新西兰坎特伯雷黑麦草研究地收集的一系列土壤芯中使用简单，标准且广泛使用的采样方法获得了幼虫计数，并记录了种群数量的显着增加。1月27日、3月19日和5月5日的测量结果分别只占6月16日平均密度的8%、25%和63%。幼虫数量明显增加的原因是未能在土壤样品中找到1龄和2龄的小个体。幼虫从1龄过渡到3龄，幼虫的体型逐渐增大，后期的幼虫更容易被发现。一个描述观测结果的方程提供了与日期相关的校正因子，以便根据经验幼虫计数更现实地预测冬季吉氏梭菌的幼虫密度。1月27日、3月19日和5月5日测量的幼虫数需要分别乘以13、4和1.6，才能准确估计6月16日发现的幼虫密度。该研究表明，使用现有方法的夏秋取样可能显著低估冬季吉氏弓形虫幼虫密度，可能导致意外的牧场生产损失。2022年也发现了类似的结果。虽然这个公式为人口估计提供了一个指导，但需要注意的是，地区和环境将影响任何特定年份的人口趋势。

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

New Zealand Plant Protection Agricultural and Biological Sciences-Insect Science

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： New Zealand Plant Protection is the journal of the New Zealand Plant Protection Society. It publishes original research papers on all aspects of biology, ecology and control of weeds, vertebrate and invertebrate pests, and pathogens and beneficial micro-organisms in agriculture, horticulture, forestry and natural ecosystems of relevance to New Zealand.