气象因子对落叶松毛虫种群数量的影响

doi:10.13287/j.1001-9332.201609.009

应用生态学报 ›› 2016, Vol. 27 ›› Issue (9): 2839-2847.doi: 10.13287/j.1001-9332.201609.009

气象因子对落叶松毛虫种群数量的影响

于跃^1,2, 房磊¹, 方国飞³, 王凤霞⁴, 杨健^1*

1中国科学院沈阳应用生态研究所, 沈阳 110016;
2沈阳师范大学生命科学学院, 沈阳 110034;
3国家林业局森林病虫害防治总站,沈阳 110034;
4黑龙江省大兴安岭森林病虫害防治检疫总站, 黑龙江加格达奇 165000

收稿日期:2016-01-19 发布日期:2016-09-18
通讯作者: * E-mail: yangjian@iae.ac.cn
作者简介:于跃,男,1989年生,硕士研究生. 主要从事景观生态学、昆虫生态学研究. E-mail: yuyue1036@163.com
基金资助:
国家自然科学基金优秀青年科学基金项目(41222004)资助

Influences of meteorological factors on larch caterpillar population.

YU Yue^1,2, FANG Lei¹, FANG Guo-fei³, WANG Feng-xia⁴, YANG Jian^1*

1Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang 110016, China;
2College of Life Science, Shenyang Normal University, Shenyang 110034, China;
3General Station of Forest Pest Control, State Administration of Forestry, Shenyang 110034, China;
4Forest Pest Control and Quarantine Station of Great Xing’an Mountains, Jiagedaqi 165000, Heilongjiang, China

Received:2016-01-19 Published:2016-09-18
Contact: * E-mail: yangjian@iae.ac.cn
Supported by:
This work was supported by the Excellent Young Scientist Award of the National Natural Science of China (41222004)

摘要/Abstract

摘要： 为探究落叶松毛虫种群数量与气象因子的关系,利用大兴安岭地区落叶松毛虫发生年度监测数据与气象数据构建线性回归模型,以赤池信息量准则为评价依据,通过逐步回归的方式从拟合优度和复杂度两方面权衡选取最优模型.采用相对权重法确定影响落叶松毛虫种群数量的关键气象因子,并量化了关键气象因子对松毛虫种群数量的影响.结果表明: 低龄幼虫期和繁殖期是影响落叶松毛虫种群数量的关键时期,而中龄幼虫期和高龄幼虫期的影响较弱; 低龄幼虫期日相对湿度均值、低龄幼虫越冬期日均温小于-22 ℃积温和繁殖期降水总量是影响落叶松毛虫种群数量的关键气象因子; 低龄幼虫期日相对湿度均值和繁殖期降水总量的标准差每增加1倍,落叶松毛虫种群数量的标准差分别减少62%和35%;低龄幼虫越冬期日均温小于-22 ℃积温的标准差每增加1倍,落叶松毛虫种群数量的标准差增加40%.表明全球气候变暖趋势下落叶松毛虫的爆发特点等可能呈现出新的形式,建立长期的种群数量监测体系尤为重要.

Abstract: To explore the relationship between larch caterpillar population and meteorological factors, a suite of linear regression models were developed. We used a stepwise regression approach to obtain the best model based on the Akaike information criterion (AIC). We also identified the key meteorological factors based on relative weight, and analyzed their marginal influences on larch ca-terpillar population. Our modeling results showed that meteorological conditions during the young larva stage and breeding stage played a key role in impacting larch caterpillar population. In contrast, meteorological conditions during the middle larva stage and old larva stage had a weaker effect. The mean daily relative humidity during young larva stage, the accumulated daily temperature less than -22 ℃ during young larva’s overwintering stage, and the total rainfall in breeding stage were the key meteorological factors affecting the population of larch caterpillar. With the increase of one standard deviation from the mean daily relative humidity during young larva stage and the total rainfall in breeding stage, the larch caterpillar population would be reduced by 62% and 35% of standard deviation, respectively. In contrast, one standard deviation increase of the accumulated daily temperature less than -22 ℃ during young larva’s overwintering stage would increase larch caterpillar population by 40% of standard deviation. Our study suggests that the larch caterpillar population in the future may explode in response to global warming, and its infestation could exhibit a new pattern. It is therefore very important to establish a long-term population monitoring system.

于跃, 房磊, 方国飞, 王凤霞, 杨健. 气象因子对落叶松毛虫种群数量的影响[J]. 应用生态学报, 2016, 27(9): 2839-2847.

YU Yue, FANG Lei, FANG Guo-fei, WANG Feng-xia, YANG Jian. Influences of meteorological factors on larch caterpillar population.[J]. Chinese Journal of Applied Ecology, 2016, 27(9): 2839-2847.

参考文献

[1] Chen H-W (陈宏伟), Hu Y-M (胡远满), Chang Y (常禹), et al. Advances in the researches of Dendrolimus superans of Daxing’an Mountain of China. Journal of Northwest Forestry University (西北林学院学报), 2010, 26(1): 119-127 (in Chinese)
[2] Liu K-Y (刘宽余), Meng Q-F (孟庆繁), Wang L-C (王立纯), et al. Syudy on the bionomics of Dendrolimus superans in Daxing’an Mountain. Journal of Northeast Forestry University (东北林业大学学报), 1994, 22(2): 1-5 (in Chinese)
[3] Yue S-K (岳书奎), Wang Z-Y (王志英), Huang Y-Q (黄玉清), et al. Bionomics and natural enemies of Dendrolimus superans. Journal of Northeast Forestry University (东北林业大学学报), 1996, 24(4): 2-8 (in Chinese)
[4] Zeng J-P (曾菊平), Ge F (戈峰), Su J-W (苏建伟), et al. Researches on the occurrences of major fo-rest insect pests of pine caterpillar Dendrolimus spp. Chinese Bulletin of Entomology (昆虫知识), 2010, 47(3): 451-459 (in Chinese)
[5] Chen H-W (陈宏伟), Hu Y-M (胡远满), Chang Y (常禹), et al. Interaction between pest and fire disturbances in Huzhong area of Great Xing’an Mountains: Long-term simulation. Chinese Journal of Applied Ecology (应用生态学报), 2011, 22(3): 585-592 (in Chinese)
[6] Waldron JD, Lafon CW, Coulson RN, et al. Simulating the impacts of southern pine beetle and fire on the dynamics of xerophytic pine landscapes in the southern Appalachians. Applied Vegetation Science, 2007, 10: 53-64
[7] Agrawal AA, Ackerly DD, Adler F, et al. Filling key gaps in population and community ecology. Frontiers in Ecology and the Environment, 2007, 5: 145-152
[8] Turchin P, Wood SN, Ellner SP, et al. Dynamical effects of plant quality and parasitism on population cycles of larch budmoth. Ecology, 2003, 84: 1207-1214
[9] Bjornstad ON, Robinet C, Liebhold AM. Geographic variation in North American gypsy moth cycles: Subharmonics, generalist predators, and spatial coupling. Eco-logy, 2010, 91: 106-118
[10] Raimondo S, Liebhold AM, Strazanac JS, Butler L. Population synchrony within and among Lepidoptera species in relation to weather, phylogeny, and larval phenology. Ecological Entomology, 2004, 29: 96-105
[11] Wei J-N (魏佳宁), Wang X-H (王宪辉), Sun Y-C (孙玉诚), et al. Mechanisms for controlling insects by manipulating their genetics and behavior from gene to ecosystem. Chinese Journal of Applied Entomology (应用昆虫学报), 2012, 49(2): 299-308 (in Chinese)
[12] Du R (杜尧), Ma C-S (马春森), Zhao Q-H (赵清华), et al. Effects of heat stress on physiological and biochemical mechanisms of insects: A literature review. Acta Ecologica Sinica (生态学报), 2007, 27(4): 1565-1572 (in Chinese)
[13] Gray DR. The relationship between climate and outbreak characteristics of the spruce budworm in eastern Canada. Climatic Change, 2008, 87: 361-383
[14] Thuiller W. BIOMOD-optimizing predictions of species distributions and projecting potential future shifts under global change. Global Change Biology, 2003, 9: 1353-1362
[15] Bentz BJ, Régnière J, Fettig CJ, et al. Climate change and bark beetles of the western United States and Canada: Direct and indirect effects. BioScience, 2010, 60: 602-613
[16] Bale JS, Masters GJ, Hodkinson ID, et al. Herbivory in global climate change research: Direct effects of rising temperature on insect herbivores. Global Change Biology, 2002, 8: 1-16
[17] Tong L-L (佟丽丽), Yan S-C (严善春), Wang Q (王琪) et al. Relationships of condensed tannin content in larch needles with larch stand age and its family. Chinese Journal of Ecology (生态学杂志), 2010, 29(2): 221-225 (in Chinese)
[18] Liebhold A, Elkinton J, Williams D, et al. What causes outbreaks of the gypsy moth in North America? Population Ecology, 2000, 42: 257-266
[19] Wang J (王娟), Ji L-Z (姬兰柱), Khomutova M. Relationships between forest insect pest occurrence area and meteorological factors in Great Xing’an Mountains of Heilongjiang Province, Northeast China. Chinese Journal of Ecology (生态学杂志), 2007, 26(5): 673-677 (in Chinese)
[20] Haynes KJ, Bjørnstad ON, Allstadt AJ, et al. Geographical variation in the spatial synchrony of a forest-defoliating insect: Isolation of environmental and spatial drivers. Proceedings of the Royal Society of London B: Biological Sciences, 2013, 280: 323-326
[21] Tang H-Y (唐红艳), Niu B-L (牛宝亮). Influence of meteorological factors on reproduction of Dendrolimus superans and forecast of spawning quantity. Journal of Northeast Forestry University (东北林业大学学报), 2010, 38(1): 84-87 (in Chinese)
[22] Zhang F-L (张福丽), Jing T-Z (景天忠), Wang Z-Y (王志英), et al. Path analysis of meteorological factors and population Dendrolimus superans density. Hubei Agricultural Sciences (湖北农业科学), 2011, 50(9): 3977-3979 (in Chinese)
[23] Chen S-H (陈素华), Zhang X-L (张晓磊). Meteorological conditions and area forecast for occurrence of Dendrolimus superans in Inner Mongolia. Journal of Northeast Forestry University (东北林业大学学报), 2011, 39(11): 135-136 (in Chinese)
[24] Liu Z-M (刘志明), Yan M (晏明), Zhang X-D (张旭东), et al. Analysis of the effect of meteorological factors on pine moth. Journal of Catastrophology (灾害学), 2002, 17(4): 33-38 (in Chinese)
[25] Tian F (田丰), Bi X-H (毕湘虹), Shen G-T (申国涛), et al. Study on the forecast technique and control index of larch caterpillar of a cycle in two years. Forest Research (林业科学研究), 1998, 11(4): 49-56 (in Chinese)
[26] Yu E-Y (余恩裕), Yin T-L (尹泰龙). Larch caterpillar prediction research: Leaf amount, mutilated, total amount of damage and amount of forest stand needle vo-lume measurement. Journal of Jilin forestry Science and Technology (吉林林业科技), 1980, 12(2): 56-59 (in Chinese)
[27] Xiong C-Y (熊彩云), Jin M-X (金明霞), Hua X-J (华小菊), et al. Research of ingestion and defecation rule of Dendrolimus kikuchii larvae. Jiangxi Forestry Science and Technology (江西林业科技), 2012, 22(6): 20-21 (in Chinese)
[28] Nangong Z-Y (南宫自艳), Gao B-J (高宝嘉), Yang J (杨君). Allozyme analysis on the phylogenetic relationships and genetic differentiation of some species of Dendrolimus (Lepidoptera: Lasiocampidae ). Acta Ecologica Sinica (生态学报), 2009, 29(4): 1661-1667 (in Chinese)
[29] Shen G-T (申国涛), Hao D-J (郝德军), Yu J (于军), et al. The occurrence of larch caterpillar and the correlation with temperature and precipitation. Forestry Science & Technology (林业科技), 1996, 21(4): 26-27 (in Chinese)
[30] Chang X-N (常晓娜), Gao H (高慧). Effects of environmental moisture and precipitation on insects: A review. Chinese Journal of Ecology (生态学杂志), 2008, 27(4): 619-625 (in Chinese)
[31] Hajek AE, Tobin PC. Introduced pathogens follow the invasion front of a spreading alien host. Journal of Animal Ecology, 2011, 80: 1217-1226
[32] Xia R-X (夏瑞心), Xu L-H (徐丽华). Study on the super-cooling point of the overwintering larvae of three kinds of pine caterpillar. Scientia Silver Sinicae (林业科学), 1993, 29(2): 186-189 (in Chinese)
[33] Renault D, Salin C, Vannier G, et al. Survival at low temperatures in insects: What is the ecological significance of the supercooling point? Cryoletters, 2002, 23: 217-228
[34] Han R, Ge F, Yardim EN, et al. The effect of low temperatures on diapause and non-diapause larvae of the pine caterpillar, Dendrolimus tabulaeformis Tsai et Liu (Lepidoptera: Lasiocampidae). Applied Entomology and Zoology, 2005, 40: 429-435
[35] Zeng JP, Ge F, Su JW, et al. The effect of temperature on the diapause and cold hardiness of Dendrolimus tabulaeformis (Lepidoptera: Lasiocampidae). European Journal of Entomology, 2008, 105: 599-606
[36] Lin H-F (林华峰), Fan M-Z (樊美珍), Li Z-Z (李增智), et al. Pathogenic effect of Beauveria bassiana infected on Dendrolimus punctatus under different temperature and humidity. Chinese Journal of Applied Ecology (应用生态学报), 1998, 9(2): 195-200 (in Chinese)
[37] Tauber MJ, Tauber CA, Nyrop JP, et al. A vital but neglected factor in the seasonal ecology of insects: Hypotheses and tests of mechanisms. Environmental Entomology, 1998, 27: 523-530
[38] Akaike H. Information theory and an extension of the maximum likelihood principle. Proceedings of the Second International Symposium on Information Theory. Budapest, Hungary: 1973: 267-281
[39] Johnson JW. A heuristic method for estimating the relative weight of predictor variables in multiple regression. Multivariate Behavioral Research, 2000, 35: 1-19
[40] Zhang Z (张真), Li D-M (李典谟), Zha G-J (查光济). Time series analysis and complex dynamics of Mason pine caterpillar, Dendrolimus punctatus Walker (Lepidoptera: Lasiocampidae). Acta Ecologica Sinica (生态学报), 2002, 22(7): 1061-1067 (in Chinese)
[41] Xu G-Y (徐光余), Jiang Z-M (江正明), Fang S-A (方思爱), et al. Different larvae ages and amount of Beauveria bassiana spores in forests influence the white muscardine to pine moth. Agricultural Technical Services (农技服务), 2008, 25(8): 148-150 (in Chinese)
[42] Hou B-H (侯柏华), Zhang R-J (张润杰). Supercooling capacity of the Oriental fruit fly, Bactrocera dorsalis (Hendel). Acta Entomologica Sinica (昆虫学报), 2007, 50(6): 638-643 (in Chinese)

气象因子对落叶松毛虫种群数量的影响

Influences of meteorological factors on larch caterpillar population.

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 0

编辑推荐

Metrics

本文评价