凉水国家级自然保护区三趾啄木鸟冬春季节取食生境选择和取食活动特征

doi:10.13287/j.1001-9332.202405.032

应用生态学报 ›› 2023, Vol. 35 ›› Issue (5): 1388-1396.doi: 10.13287/j.1001-9332.202405.032

凉水国家级自然保护区三趾啄木鸟冬春季节取食生境选择和取食活动特征

钟涵¹, 司雨蕙¹, 朱紫薇¹, 戎可^1,2*

¹东北林业大学野生动物与自然保护地学院, 哈尔滨 150040;
²国家林业和草原局野生动物保护生物学重点实验室, 哈尔滨 150040

收稿日期:2023-09-12 接受日期:2024-03-12 出版日期:2024-05-18 发布日期:2024-11-18
通讯作者: *E-mail: rongke@nefu.edu.cn
作者简介:钟涵, 女, 1999年生, 硕士研究生。主要从事野生动物保护研究。E-mail: zhonghanmine@163.com
基金资助:
国家自然科学基金面上项目(31970385)

Foraging habitat selection and foraging activities of Picoides tridactylus during winter and spring in Liangshui National Nature Reserve, Heilongjiang, China

ZHONG Han¹, SI Yuhui¹, ZHU Ziwei¹, RONG Ke^1,2*

¹College of Wildlife and Protected Area, Northeast Forestry University, Harbin 150040, China;
²Key Laboratory of Conservation Biology, National Forestry and Grassland Administration, Harbin 150040, China

Received:2023-09-12 Accepted:2024-03-12 Online:2024-05-18 Published:2024-11-18

摘要/Abstract

摘要： 2022年4—5月和11—12月在黑龙江省凉水国家级自然保护区开展野外调查,收集三趾啄木鸟的取食生境及取食活动特征数据。利用资源选择函数分析影响三趾啄木鸟取食生境选择的重要因子,通过卡方检验、Mann-Whitney U检验比较冬春季节取食生境选择和取食活动间的差异,采用基于“利用-可利用”的Bailey方法探讨其取食偏好。结果表明: 优势乔木树种和枯立木数量是影响三趾啄木鸟取食生境选择的重要因子,其偏好在优势乔木为云、冷杉且枯立木数量多的生境中取食;偏好取食的树木高度在10～20 m、胸径在15～45 cm,春季偏好半枯立木,对红松表现出随机利用,冬季偏好枯立木,避免选择红松。三趾啄木鸟偏好在树的主干取食,春季偏好采用轻啄的方式在树中部取食,取食时长较短,冬季偏好采用凿取的方式在树上部取食,取食时长较长。三趾啄木鸟的取食生境选择和取食活动特征在冬春季节呈现出一定的差异。

关键词: 三趾啄木鸟, 生境选择, 取食活动, 资源选择函数, 凉水自然保护区

Abstract: We conducted field surveys on foraging habitat and foraging activities of Picoides tridactylus in Liangshui National Nature Reserve of Heilongjiang Province, China, from April to May and November to December 2022. By using the resource selection function, we analyzed the factors affecting foraging habitat selection of P. tridactylus, compared the differences between foraging habitat selection and foraging activities in winter and spring by chi-square and Mann-Whitney U tests, and investigated their foraging preference with Bailey's method. The results showed that dominant tree species and dead arbor number were the important factors affecting foraging habitat selection of P. tridactylus. They preferred habitats with a large number of dead arbor and dominant trees, such as Picea asperata and Abies fabri. They preferred trees with a height of 10-20 m and a diameter at breast height of 15-45 cm. In spring, they favored semi-withered arbors and showed random utilization of P. koraiensis. During winter, they preferred dead arbors and avoided choosing P. koraiensis. They preferred to forage on tree trunk, in spring pecking in the middle of the tree for a short duration, and during winter, digging in the upper part of the tree for a long duration. Foraging habitat selection and foraging activities of P. koraiensis showed certain differences between winter and spring.

Key words: Picoides tridactylus, habitat selection, foraging activity, resource selection function, Liangshui Nature Reserve

钟涵, 司雨蕙, 朱紫薇, 戎可. 凉水国家级自然保护区三趾啄木鸟冬春季节取食生境选择和取食活动特征[J]. 应用生态学报, 2023, 35(5): 1388-1396.

ZHONG Han, SI Yuhui, ZHU Ziwei, RONG Ke. Foraging habitat selection and foraging activities of Picoides tridactylus during winter and spring in Liangshui National Nature Reserve, Heilongjiang, China[J]. Chinese Journal of Applied Ecology, 2023, 35(5): 1388-1396.

参考文献

[1] Jones CG, Lawton JH, Shachak M. Organisms as ecosystem engineers. Oikos, 1994, 69: 373-386
[2] Remm J, Lõhmus A. Tree cavities in forests: The broad distribution pattern of a keystone structure for biodiver-sity. Forest Ecology and Management, 2011, 262: 579-585
[3] 李志东. 啄木鸟对森林害虫生态控制作用浅析. 昆虫天敌, 2006, 28(1): 44-48
[4] Martin K. Nest webs and woodpecker ecological ser-vices: The role of woodpeckers in tree cavity-using wildlife communities in North America. Denisia, 2015, 36: 77-86
[5] Wesołowski T. “Lifespan” of woodpecker-made holes in a primeval temperate forest: A thirty year study. Forest Ecology and Management, 2011, 262: 1846-1852
[6] Stański T, Czeszczewik D, Stańska M, et al. Foraging behaviour of the Great Spotted Woodpecker Dendrocopos major in relation to sex in primeval stands of the Białowiea National Park. Acta Ornithologica, 2020, 55: 120-128
[7] Morris DW. Toward an ecological synthesis: A case for habitat selection. Oecologia, 2003, 136: 1-13
[8] Beyer HL, Haydon DT, Morales JM, et al. The interpretation of habitat preference metrics under use-availability designs. Philosophical Transactions of the Royal Society B, 2010, 365: 2245-2254
[9] Stański T, Stańska M, Czeszczewik D. Foraging beha-viour of the Great Spotted Woodpecker (Dendrocopos major) in the Białowiea National Park: Comparison of breeding and non-breeding seasons. Ornis Fennica, 2023, 100: 38-50
[10] Rossmanith E, Höntsch K, Blaum N, et al. Reproductive success and nestling diet in the Lesser Spotted Woodpecker (Picoides minor): The early bird gets the caterpillar. Journal of Ornithology, 2007, 148: 323-332
[11] Versluijs M, Eggers S, Mikusiński G, et al. Foraging behavior of the Eurasian Three-toed Woodpecker (Picoides tridactylus) and its implications for ecological restoration and sustainable boreal forest management. Avian Conservation and Ecology, 2020, 15: Article 6
[12] Pakkala T, Tiainen J, Piha M, et al. How important are nest cavities made by the Three-toed Woodpecker Picoides tridactylus for cavity-nesting forest bird species? Acta Ornithologica, 2018, 53: 69-79
[13] Figarski T, Kajtoch Ł. Differences in habitat requirements between two sister Dendrocopos woodpeckers in urban environments: Implication for the conservation of Syrian Woodpecker. Acta Ornithologica, 2018, 53: 23-36
[14] Kosiński Z, Walczak Ł. Population dynamics and regulation of the Middle Spotted Woodpecker in strictly protected and managed forests in Western Poland. Journal of Ornithology, 2020, 161: 739-751
[15] Miller ET, Leighton GM, Freeman BG, et al. Ecological and geographical overlap drive plumage evolution and mimicry in woodpeckers. Nature Communications, 2019, 10: 1602
[16] Ónodi G, Csörgõ T. Habitat preference of Great-spotted Woodpecker (Dendrocopos major Linnaeus, 1758) and Lesser-spotted Woodpecker (Dendrocopos minor Linna-eus, 1758) in the presence of invasive plant species: Preliminary study. Ornis Hungarica, 2014, 22: 50-64
[17] Rassati G. Responsiveness to acoustic stimulation, distribution and habitat preferences of the Grey-headed Woodpecker, Picus canus, and the Three-toed Woodpecker, Picoides tridactylus, in Friuli-Venezia Giulia (North-eastern Italy). Rivista Italiana di Ornitologia, 2014, 84: 41-52
[18] 国家林业和草原局、农业农村部. 国家重点保护野生动物名录[EB/OL]. (2021-02-09) [2023-09-08]. https://www.gov.cn/xinwen/2021-02/09/content_5586-227.htm
[19] Mikusiński G, Gromadzki M, Chylarecki P. Woodpec-kers as indicators of forest bird diversity. Conservation Biology, 2001, 15: 208-217
[20] Roberge JM, Angelstam P. Indicator species among resident forest birds: A cross-regional evaluation in northern Europe. Biological Conservation, 2006, 130: 134-147
[21] Drever MC, Aitken KEH, Norris AR, et al. Woodpec-kers as reliable indicators of bird richness, forest health and harvest. Biological Conservation, 2008, 141: 624-634
[22] Versluijs M, Hjältén J, Roberge JM. Ecological restoration modifies the value of biodiversity indicators in resident boreal forest birds. Ecological Indicators, 2019, 98: 104-111
[23] 佘丹琦, 张喜亭, 肖路, 等. 小兴安岭凉水国家级自然保护区植物β多样性及其影响因素. 生物多样性, 2022, 30(3): 1-12
[24] 戎可, 司雨蕙, 潘麒嫣, 等. 同域分布3种啄木鸟冬季取食的生态位差异. 生态学报, 2018, 38(23): 8314-8323
[25] 王正寰, 王小明. 资源选择函数拟合藏狐洞穴生境利用特征的有效性分析. 生物多样性, 2006, 14(5): 382-391
[26] 邹红菲, 高忠斯, 吴庆明, 等. 应用资源选择函数研究丹顶鹤的巢址选择. 野生动物学报, 2018, 39(3): 566-572
[27] Murtaugh PA. The statistical evaluation of ecological indicators. Ecological Applications, 1996, 6: 132-139
[28] 李宗智, 刘振生, 米书慧, 等. 白山原麝国家级自然保护区獐春夏生境选择. 生态学报, 2021, 41(4): 1625-1633
[29] Zhu Y, Lü N, Pechacek P, et al. Foraging behavior of the Eurasian Three-toed Woodpecker subspecies Picoides tridactylus funebris in southern Gansu, China. Chinese Birds, 2012, 3: 60-66
[30] Lõhmus A, Kinks R, Soon M. The importance of dead-wood supply for woodpeckers in Estonia. Baltic Forestry, 2010, 16: 76-86
[31] Renken RB, Wiggers EP. Forest characteristics related to pileated woodpecker territory size in Missouri. The Condor, 1989, 91: 642-652
[32] Kouki J, Väänänen A. Impoverishment of resident old-growth forest bird assemblages along an isolation gradient of protected areas in eastern Finland. Ornis Fennica, 2000, 17: 220-224
[33] Lõhmus A, Kinks R, Soon M. The importance of dead-wood supply for woodpeckers in Estonia. Baltic Forestry, 2010, 16: 76-86
[34] Czeszczewik D, Walankiewicz W, Mitrus C, et al. Importance of dead wood resources for woodpeckers in coniferous stands of the Bialowieza Forest. Bird Conservation International, 2013, 23: 414-425
[35] Angelstam P, Mikusiński G. Woodpecker assemblages in natural and managed boreal and hemiboreal forest: A review. Annales Zoologici Fennici, 1994, 31: 157-172
[36] Czeszczewik D, Walankiewicz W. Logging affects the White-backed Woodpecker Dendrocopos leucotos distribution in the Białowiea Forest. Annales Zoologici Fennici, 2006, 43: 221-227
[37] Sukovata L, Jaworski T. The abundance of the nun moth and lappet moth larvae on trees of different trunk thickness in Scots pine stands in the Noteć forest complex. Forest Research Papers, 2010, 71: 231-237
[38] Gilliam JF, Fraser DF. Habitat selection under predation hazard: Test of a model with foraging minnows. Ecology, 1987, 68: 1856-1862
[39] Pechacek P, Kristin A. Comparative diets of adult and young Three-toed Woodpeckers in a European alpine forest community. Wildlife Management, 2004, 68: 683-693
[40] Wesolowski T, Czeszczewik D, Rowiński P. Effects of forest management on Three-toed Woodpecker Picoides tridactylus distribution in the Białowiea Forest (NE Poland): Conservation implications. Acta Ornithologica, 2005, 40: 53-60
[41] Czeszczewik D. Foraging behaviour of White-backed Woodpeckers Dendrocopos leucotos in a primeval forest (Biaowiea National Park, NE Poland): Dependence on habitat resources and season. Acta Ornithologica, 2009, 44: 109-118
[42] Nappi A, Drapeau P, Leduc A. How important is dead wood for woodpeckers foraging in eastern North American boreal forests? Forest Ecology and Management, 2015, 346: 10-21
[43] Blanc LA, Martin K. Identifying suitable woodpecker nest trees using decay selection profiles in trembling aspen (Populus tremuloides). Forest Ecology and Management, 2012, 286: 192-202
[44] Kehoe AR. Space use and foraging patterns of the White-headed Woodpecker in Western Idaho. Master Thesis. Bozeman, MT, USA: Montana State University, 2017
[45] Nicolai V. The bark of trees: Thermal properties, microclimate and fauna. Oecologia, 1986, 69: 148-160
[46] Pasinelli G, Hegelbach J. Characteristics of trees preferred by foraging Middle Spotted Woodpecker Dendrocopos medius in northern Switzerland. Ardea, 1997, 85: 203-209

凉水国家级自然保护区三趾啄木鸟冬春季节取食生境选择和取食活动特征

Foraging habitat selection and foraging activities of Picoides tridactylus during winter and spring in Liangshui National Nature Reserve, Heilongjiang, China

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