数据集(库)目录

出版期刊|区域分类

2021年第12期
2019年第02期
数据详情

北半球9个历史时期蝗灾分布100-km栅格数据集


严川1,2田会东1刘睿2
1 中国科学院动物研究所,北京1001012 兰州大学生态学院,兰州730000

DOI:10.3974/geodb.2022.04.07.V1

出版时间:2022年4月

网页浏览次数:7412       数据下载次数:57      
数据下载量:1.78 MB      数据DOI引用次数:

关键词:

蝗灾,历史,空间分布,北半球,100 km

摘要:

蝗灾是由蝗虫大面积发生及迁移造成的自然灾害。蝗灾发生可以跨国、跨洲,因此了解蝗灾发生的大尺度时空特征是全球蝗灾防治的基础工作之一。本研究搜集整理了国际英文期刊文章、著作中的历史文献记录和《中国三千年气象记录总集》,提取北半球蝗灾发生的时间与空间信息;将某一时间段的蝗灾发生地点,按照核密度方法估计蝗灾发生区域,得到北半球9个历史时期蝗灾分布100-km栅格数据集。数据集内容包括:公元1000年以前、1000-1200年、1200-1300年、1300-1500年、1500-1700年,1700-1850年、1850-1900年、1900-1950年、1950-2000年共9个时期的北半球蝗灾分布区域。数据为Equal earth投影,空间分辨率为100 km。该数据集存储为.tif格式,由18个数据文件组成,数据量为43.8 KB(压缩为1个文件32 KB)。数据论文

基金项目:

中华人民共和国科学技术部(2017YFA0603304)

数据引用方式:

严川, 田会东, 刘睿. 北半球9个历史时期蝗灾分布100-km栅格数据集[J/DB/OL]. 全球变化数据仓储电子杂志(中英文), 2022. https://doi.org/10.3974/geodb.2022.04.07.V1.

严川, 田会东, 刘睿. 北半球 9 个历史时期蝗灾分布 100-km 栅格数据集 [J]. 全球变化数据学报(中英文), 2022, 6(3): 358-365

参考文献:

[1] Albert, J., Bernhardsson, M., Kenna, R. Transformations of middle eastern natural environments: Legacies and lessons [M]. New Haven: Yale School of Forestry & Environmental Studies, 1998.
     [2] Alomenu, H. Current trends in African Migratory Locust plague prevention [J]. Outlook on Agriculture, 1985, 14(4): 165-173.
     [3] Bahana, J., Byaruhanga, E. Advances and review of strategies for red locust plague prevention: the control of red locust, Nomadacris Septemfasciata (Serville) into the 21st century [J]. International Journal of Tropical Insect Science, 1999a, 19(4): 265-272.
     [4] Bahana, J. W., Ngazero, A. K. A locust plague in the making: Upsurges of the Red Locust, Nomadacris Septemfasciata (Serville) in Buzi-Gorongosa Outbreak Area, Mozambique in 1996 [J]. International Journal of Tropical Insect Science, 1999b, 19(4): 291-300.
     [5] Ballard, C. “A Year of Scarcity”, the 1896 locust plague in Natal and Zululand [J]. South African Historical Journal, 1983, 15(1): 34-52.
     [6] Bodkin, G. The locust invasion of Palestine during 1928 [J]. Bulletin of Entomological Research, 1929, 20(2): 123-139.
     [7] Bodley, E. F. The locust plague in algeria [J]. Science, 1891, 17(436): 329-331.
     [8] Brázdil, R., ?ezní?ková, L., Valá?ek, H., et al. Past locust outbreaks in the Czech Lands: do they indicate particular climatic patterns [J]? Theoretical and applied climatology, 2014, 116(1): 343-357.
     [9] Buj Buj, A. International experimentation and control of the locust plague. Africa in the first half of the 20th century [J]. Nature et environnement, 1995, 3(93-105.
     [10] Ceccato, P., Cressman, K., Giannini, A., et al. The desert locust upsurge in West Africa (2003 – 2005): Information on the desert locust early warning system and the prospects for seasonal climate forecasting [J]. International Journal of Pest Management, 2007, 53(1): 7-13.
     [11] Dawson, G. M. Notes on the locust invasion of 1874: In manitoba and the north-west territories [M]. Charleston: Nabu Press, 1876.
     [12] Fashing, P. J., Nguyen, N., Fashing, N. J. Behavior of geladas and other endemic wildlife during a desert locust outbreak at Guassa, Ethiopia: Ecological and conservation implications [J]. Primates, 2010, 51(3): 193-197.
     [13] Ghosh, S., Roy, A. Desert locust in India: The 2020 invasion and associated risks [OL]. EcoEvoRxiv, 2020. https://doi.org/10.32942/osf.io/3vuj4.
     [14] Gomes, I., Queiroz, A. I., Alves, D. Iberians against locusts: fighting cross-border bio-invaders (1898-1947) [M]. Girona: Sociedad Espa?ola de Historia Agraria, 2019.
     [15] Guilbert, N., De Vreyer, P., Mesplé-Somps, S. The impact of income shocks on children education: the 1987-1989 locust plague in Mali [C]. DIAL Development Conference - Shocks in Developing Countries. Paris: Université Paris-Dauphine, 2011.
     [16] Hemming, C., Popov, G., Roffey, J., et al. Characteristics of desert locust plague upsurges [J]. Philosophical Transactions of the Royal Society of London. B, Biological Sciences, 1979, 287(1022): 375-386.
     [17] Henschel, J. R. Locust times-monitoring populations and outbreak controls in relation to Karoo natural capital [J]. Transactions of the Royal Society of South Africa, 2015, 70(2): 135-143.
     [18] Hielkema, J., Roffey, J., Tucker, C. Assessment of ecological conditions associated with the 1980/81 desert locust plague upsurge in West Africa using environmental satellite data [J]. International Journal of Remote Sensing, 1986, 7(11): 1609-1622.
     [19] Hokyo, N., Fujisaki, K. Morphometric characters of overwintering adults of the Bombay locust, Patanga Succincta (L.)(Orthoptera: Cyrtacanthacridinae) in outbreak areas of Okinawa [J]. Applied Entomology and Zoology, 1984, 19(2): 170-174.
     [20] Jennings, R. C. The locust problem in Cyprus [J]. Bulletin of the School of Oriental and African Studies, 1988, 51(2): 279-313.
     [21] Johnson, J. J., Jd, T. Locust plague now 20 times worse [OL]. 2020. https://www.icr.org/article/locust-plague-now-20-times-worse.
     [22] Jonatan, A. L. The return of locust outbreak in Sumba, Indonesia: A rapid situational analysis [OL]. Working Paper#17, Institute of Resource Governance and Social Change (IRGSC), 2017. https://doi.org/10.13140/RG.2.2.26065.94563.
     [23] Joshi, M. J., Raj, V., Solanki, C. B., et al. Desert locust (Schistocera Gregaria F.) outbreak in Gujarat (India) [J]. Agriculture and Food: E-Newsletter, 2020, 2(6): 691-693.
     [24] Kalair, E., Abas, N., Comsats, N. K. Climate change stimulates locust plague [OL]. 2020. http://www.ocnus.net/artman2/publish/Research_11/Climate-Change-Stimulates-Locust-Plague.shtml.
     [25] Lecoq, M. Desert locust management: from ecology to anthropology [J]. Journal of Orthoptera Research, 2005, 14(2): 179-186.
     [26] Lecoq, M., Sukirno. Drought and an exceptional outbreak of the Oriental Migratory Locust, Locusta Migratoria Manilensis (Meyen 1835) in Indonesia (Orthoptera: Acrididae) [J]. Journal of Orthoptera Research, 1999, 8: 153-161.
     [27] Lefroy, H. Locusts in India (Department of Agriculture Bombay, Bulletin No. 32) [M]. Bombay: Department of Agriculture, 1908.
     [28] Lockwood, J. A., Debrey, L. D. A solution for the sudden and unexplained extinction of the Rocky Mountain Grasshopper (Orthoptera: Acrididae) [J]. Environmental Entomology, 1990, 19(5): 1194-1205.
     [29] Maxwell-Darling, R. The outbreak areas of the desert locust (Schistocerca gregaria, Forsk.) in Arabia [J]. Bulletin of Entomological Research, 1937, 28(4): 605-618.
     [30] Munro, A. The locust plague and its suppression [M]. London: John Murray, 1900.
     [31] Nagy, B. Are locust outbreaks a real danger in the Carpathian Basin in the near future [J]? Journal of Orthoptera Research, 1995, 4: 143-146.
     [32] Oikonomopoulos, E. NDVI time series analysis for desert locust outbreak detection and quantification analysis of its impact on vegetation productivity of Sahel [D]. Lund: Lund University GEM thesis series, 2020.
     [33] Pedgley, D. Weather and the current desert locust plague [J]. Weather, 1989, 44(4): 168-171.
     [34] Pedgley, D., Symmons, P. Weather and the locust upsurge [J]. Weather, 1968, 23(12): 484-492.
     [35] Price, R. E., Müller, E. J., Brown, H. D., et al. The first trial of a Metarhizium Anisopliae var. Acridum Mycoinsecticide for the control of the red locust in a recognised outbreak area [J]. Insect Science and Its Application, 1999, 19(4): 323-331.
     [36] Rainey, R. C., Betts, E., Lumley, A., et al. The decline of the desert locust plague in the 1960s: control operations or natural causes [J]? Philosophical Transactions of the Royal Society of London. B, Biological Sciences, 1979, 287(1022): 315-344.
     [37] Riley, C. V. The locust plague in the United States: being more particularly a treatise on the Rocky Mountain Locust or so-called grasshopper, as it occurs east of the Rocky Mountains, with practical recommendations for its destruction [M]. Chicago: Rand, McNally, 1877.
     [38] Roffey, J. The build-up of the present desert locust plague [J]. PANS Pest Articles & News Summaries, 1969, 15(1): 12-17.
     [39] Roffey, J., Popov, G. Environmental and behavioural processes in a desert locust outbreak [J]. Nature, 1968, 219(5153): 446-450.
     [40] Salih, A. A., Baraibar, M., Mwangi, K. K., et al. Climate change and locust outbreak in East Africa [J]. Nature Climate Change, 2020, 10(7): 584-585.
     [41] Showler, A., Potter, C. Synopsis of the 1986–1989 desert locust (Orthoptera: Acrididae) plague and the concept of strategic control [J]. American Entomologist, 1991, 37(2): 106-110.
     [42] Showler, A. T. Locust (Orthoptera: Acrididae) outbreak in Africa and Asia, 1992–1994: an overview [J]. American Entomologist, 1995, 41(3): 179-185.
     [43] Showler, A. T. Desert locust control: the effectiveness of proactive interventions and the goal of outbreak prevention [J]. American Entomologist, 2019, 65(3): 180-191.
     [44] Skaf, R., Popov, G. B., Roffey, J., et al. The desert locust: an international challenge [J]. Philosophical Transactions of the Royal Society of London. B, Biological Sciences, 1990, 328(1251): 525-538.
     [45] Spinage, C. A. African Ecology (locusts the forgotten plague part ii: history of locust plagues) [M]. Heidelberg: Springer, 2012.
     [46] Spurgin, P. A., Chomba, R. S. K. The Bahi Plains—an additional red locust outbreak area in central Tanzania [J]? International Journal of Tropical Insect Science, 1999, 19(04): 277-282.
     [47] Tian, H. D., Stige, L. C., Cazelles, B., et al. Reconstruction of a 1,910-y-long locust series reveals consistent associations with climate fluctuations in China [J]. Proceedings of the National Academy of Sciences, 2011, 108(35): 14521-14526.
     [48] Tian, H. D., Yan, C., Xu, L., et al. Scale-dependent climatic drivers of human epidemics in ancient China [J]. Proceedings of the National Academy of Sciences, 2017, 114(49): 12970-12975.
     [49] Wagner, A. M. Grasshoppered: America's response to the 1874 Rocky Mountain Locust invasion [J]. Nebraska History, 2008(89): 154-167.
     [50] Wakeland, C. C. The high plains grasshopper: a compilation of facts about its occurrence and control[M]. Washington: US Department of Agriculture, 1958.
     [51] Waloff, Z. V. The distribution and migrations of Locusta in Europe [J]. Bulletin of Entomological Research, 1940, 31(3): 211-246.
     [52] Whiting, J. D. Jerusalem's locust plague [M]. Charleston: Nabu Press, 1915.
     [53] Wichhart, S. The 1915 locust plague in Palestine [J]. Jerusalem Quarterly, 2013, 56(57): 29-39.
     [54] Yan, C., Tian, H. D., Wan, X. R., et al. Climate change affected the spatio-temporal occurrence of disasters in China over the past five centuries [J]. Royal Society Open Science, 2021, 8(2): 200731.
     [55] Yule, W. N., Lloyd, H. J. Observations on migration of hopper bands of the red locust (Nomadacris Septemfasciata Serville) in an outbreak area [J]. Journal of the Entomological Society of Southern Africa, 1959, 22(1): 233-244.
     [56] 李钢. 历史时期中国蝗灾记录特征及其环境意义集成研究 [M]. 兰州: 兰州大学出版社, 2008.
     [57] 马世骏. 东亚飞蝗(Locusta Migratoria Manilensis Meyen)在中国的发生动态 [J]. 昆虫学报, 1958, 8(1): 1-40.
     [58] 马世骏, 丁岩钦, 李典谟. 东亚飞蝗中长期数量预测的研究 [J]. 昆虫学报, 1965, 14(4): 319-338.
     [59] 张德二. 中国三千年气象记录总集 [M]. 南京: 江苏教育出版社, 2004.
     [60] 章义和. 中国蝗灾史 [M]. 合肥: 安徽人民出版社, 2008.
     [61] 朱慧, 任炳忠. 蝗虫成灾规律、影响因素及防控技术研究进展 [J]. 环境昆虫学报, 2020, 42(3): 520-528.
     

数据下载:

序号 数据名 数据大小 操作
0Datapaper_LocustPlagueNH.pdf476.00kb下载
1 LocustPlagueNH.rar 31.94KB
主管单位