收稿日期: 2022-03-24
录用日期: 2022-05-12
网络出版日期: 2023-11-23
Species and life cycles report on Tettigoniidea and Gryllidea in Minhang District, Shanghai
Received date: 2022-03-24
Accepted date: 2022-05-12
Online published: 2023-11-23
何祝清 , 廖欣怡 . 上海市闵行区螽斯和蟋蟀的种类及生活史报道[J]. 华东师范大学学报(自然科学版), 2023 , 2023(6) : 119 -124 . DOI: 10.3969/j.issn.1000-5641.2023.06.011
This research study focuses on Tettigoniidea and Gryllidea insects distributed across Shanghai Pujiang Country Park, with data collected twice a month from April to December of Year 2020 and 2021. The results show that 8 species of Tettigonioidea, 16 species of Grylloidea, and 1 species of Gryllotalpidae live in Shanghai Pujiang Country Park. The adult phase and voltinism in their life cycles, moreover, were found to be stable. Most Tettigoniidea and Gryllidea tend to overwinter in soil as diapause eggs, and a proportion of them overwinter as nymphs. The research suggests, furthermore, that using the calling songs of Tettigoniidea and Gryllidea can be a simple and effective way to carry out studies about phenology and ecology of singing insect.
Key words: Orthoptera; katydid; cricket; life cycle; calling song
1 | 郭飞燕, 綦东菊, 周斌, 等.. 青岛地区气候变化对动物物候变化的影响研究. 气候变化研究进展, 2019, 15 (1): 62- 73. |
2 | 方修琦, 余卫红.. 物候对全球变暖响应的研究综述. 地球科学进展, 2002, 17 (5): 714- 719. |
3 | 陈佳慧.. 《田家五行》中动物物候在农业气象中的应用. 文学教育, 2021, (12): 140- 142. |
4 | 张秀艳, 姚远, 王中秀.. 虎林市物候观测与气候变暖的相关关系. 黑龙江气象, 2016, 33 (2): 32- 33. |
5 | FREEMAN B G, SCHOLER M N, RUIZ-GUTIERREZ V, et al.. Climate change causes upslope shifts and mountaintop extirpations in a tropical bird community. PNAS, 2018, 115 (47): 11982- 11987. |
6 | JENNI L, KERY M.. Timing of autumn bird migration under climate change: Advances in long–distance migrants, delays in short–distance migrants. Proceedings: Biological Sciences, 2003, 270 (1523): 1467- 1471. |
7 | 桂爱礼, 章士美.. 我国农林昆虫出、入蛰期概述. 江西植保, 1996, 19 (2): 30- 31. |
8 | 徐超, 张红玉.. 直翅目昆虫对不同石漠化草地生境的指示作用. 江苏农业科学, 2018, 46 (1): 247- 251. |
9 | 李世忠, 谭宗琨, 夏小曼, 等.. 桂北动物物候气候变暖响应. 气象科技, 2010, 38 (3): 377- 382. |
10 | 刘安然, 胥婷婷, 宋丽美, 等.. 温度变化对家蟋蟀卵孵化率的影响. 四川动物, 2020, 39 (4): 401- 407. |
11 | 赵吕权, 刘世大, 朱道弘.. 小悍蟋若虫滞育的光周期调控及其季节适应策略. 中南林学院学报, 2006, 26 (1): 34- 40. |
12 | 赵吕权, 陈瑞屏, 朱道弘.. 光周性和滞育: 日本列岛蟋蟀的季节适应. 中南林学院学报, 2005, 25 (3): 117- 121. |
13 | ICHIKAWA A, KANO Y, KAWAI M, et al. Orthoptera of the Japanese Archipelago in Color (Japanese) [M]. Sapporo: Hokkaido University Press, 2006: 687. |
14 | GOVINDARAJ D, SENTHIKUMAR N, PERIYASAMY S S.. Altitudinal gradients and species richness: A study on diversity of Orthoptera in Nilgiris Shola forests and grasslands. Records of the Zoological Survey of India, 2022, 121 (4): 465- 472. |
15 | 郭陶然, 山冰沁.. 城市荒野景观营造: 以上海乡土生态科普示范基地为例. 景观设计学, 2021, 9 (1): 120- 131. |
16 | 何祝清.. 螽斯和蟋蟀的活体采集方法. Bio-protocol, 2021, e1010637. |
17 | 何祝清. 常见螽斯蟋蟀野外识别手册 [M]. 重庆: 重庆大学出版社, 2021. |
18 | 吴鸿, 王义平, 杨星科, 等. 天目山动物志(第三卷) [M]. 杭州: 浙江大学出版社, 2014. |
19 | MASAKI S. Geographic variation and climatic adaptation in a field cricket (Orthoptera: Gryllidae)[J]. Evolution, 1967, 21(4): 725-741. |
20 | ALEXANDER G, HILLIARD JR.. Altitudinal and seasonal distribution of Orthoptera in the Rocky Mountains of Northern Colorado. Ecological Monographs, 1969, 39 (4): 385- 432. |
21 | MASAKI S.. Climatic speciation in Japanese ground crickets. GeoJournal, 1983, 7 (6): 483- 490. |
22 | 马玉增, 樊宝敏, 周成刚.. 山岳生态环境评价指标体系. 环境保护, 1995, 6 (12): 30- 32. |
23 | 杜婷, 廖怀建, 石雷.. 蜻蜓目水生昆虫在滇池入湖口湿地水质评价中的指示作用. 林业科学研究, 2018, 31 (5): 145- 152. |
24 | 李美琳, 何君.. 萤火虫生存现状与上海地区生态环境保护. 中学生物学, 2019, 35 (4): 48- 50. |
25 | 滕兆乾. 山东省直翅目(Orthoptera)昆虫多样性研究 [D]. 济南: 山东师范大学, 2002. |
26 | 宋珊珊, 庞洪翠, 王章训, 等.. 宁夏云雾山草原直翅目昆虫群落结构及其多样性. 宁夏大学学报(自然科学版), 2017, 38 (2): 180- 185. |
27 | 尚晓彤, 罗春平, 李斌, 等.. 四川王朗国家级自然保护区鸟类多样性与区系组成. 四川动物, 2020, 39 (1): 93- 106. |
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