東亞飛蝗
東亞飛蝗(Locusta migratoria manilensis)是飛蝗的一個亞種[1]。 由於本物種跟同種的非州飛蝗在體型及結構上的差別很大,所以被認為是另一個亞種[2]。本物種發現於中國大陸[3]及東南亞,是當地農業的主要害蟲,對當地作為主食的禾本科經濟作物造成巨大損耗[3]。 東亞飛蝗基本上是一種独居性昆虫(solitary insects),但在條件適合時,會進入一種群居模式。這個時候,幼蟲會組成隊伍,一起移動,而成蟲會結集群行。儘管近年東亞飛蝗的爆發無論在規模和次數都下降了,因為農業生產模式的轉變及更好的偵查蝗蟲出現的方法,東亞飛蝗到現在仍然存在,而且依然是重要的農作物害蟲,未來仍然有爆發的可能。
東亞飛蝗 | |
---|---|
独居阶段的東亞飛蝗 | |
科学分类 | |
界: | 动物界 Animalia |
门: | 节肢动物门 Arthropoda |
纲: | 昆虫纲 Insecta |
目: | 直翅目 Orthoptera |
科: | 剑角蝗科 Acrididae |
属: | 飞蝗属 Locusta |
种: | 飛蝗 L. migratoria
|
亚种: | 東亞飛蝗 L. m. subsp. manilensis
|
三名法 | |
Locusta migratoria subsp. manilensis Meyen, 1835
|
簡述
编辑東亞飛蝗在體型上較非州飛蝗為小。其存在可分為獨居階段及群居階段:獨居蝗蟲的顏色可以是綠色或褐色,但當蟲口數量增加,令生活空間下降,褐色的蝗蟲會變成佔多數。 蝗科的若蟲叫作「蝗蝻」(Nymph)或「跳蝻」(Hopper),因為牠們的翅螃還未成長,無法飛行。這些若蟲在初孵化時是灰棕色,但當成長後,牠們的顏色會變為綠色或棕色;而當環境變得乾燥時,棕色會變更常見。當牠們的密度增加,他們開始形成跳蝻帶,顏色變得更紅,呈橙楬色或紅褐色,有黑色斑紋。[4]
分佈
编辑東亞飛蝗分佈於東南亞。蝗災曾發生於泰国、馬來西亞、爪哇、苏拉威西岛以及日本南端。[4] 臺灣雖為海島,因飛蝗飛行力強,故曾數次侵襲臺灣,並帶來相當大的災情,甘蔗、稻米等嚴重的損失。 [5]
生活史
编辑The adult female Oriental migratory locust deposits a number of egg pods in the ground over the course of a few weeks. The sites selected include soft soils such as volcanic ash, alluvial soils and sand. Each pod contains between fifteen and a hundred eggs and most females lay from two to seven pods during the breeding season. The eggs hatch 10 to 24 days later and the nymphs develop through 5 or 6 instars, taking between 26 and 61 days to fully develop.[4] Females do not lay eggs when the temperature is below 21 °C(70 °F), and above this temperature, development times reduces as the temperature rises until 32 °C(90 °F) is reached, after which no further reduction takes place.[6]
Locusts change their behaviour and are attracted to each other when there are large numbers in close proximity. This behaviour starts when the nymphs are quite small and form a band that move together as a cohesive unit. The band of hoppers can travel a distance of up to 4公里(2.5英里) per day, mostly moving downhill, stopping sporadically to feed and bask in the sun. When the insects are fully developed and have wings, they stay together as a swarm. Solitary adults usually fly by night but gregarious ones fly by day. The new adults mature and become sexually active in three or four weeks. There may be up to five generations per year in the Philippines, but in the cooler parts of China, there may be just one or two.[4]
災害爆發
编辑Outbreaks tend to originate in two types of habitat; soft flood plains periodically inundated by floodwater and forest clearings. In the latter case, the land is cleared for growing crops but when the soil is exhausted it is abandoned and cultivation moves elsewhere. The grasses and weeds that grow in the clearing provide food for locust nymphs and cultivated areas nearby provide soft soil for mass egg deposition.[4]
A serious outbreak of the Oriental migratory locust occurred in Indonesia in 1997-1998. It was first observed in the provinces of Lampung, South Sumatra and Bengkulu in 1997 and then seemed to disappear. It reappeared early in 1998 and intensified, with nearly 20,000 hectares of rice and 15,000 hectares of maize being affected. It may have been triggered by the drought conditions of 1997.[7]
Outbreaks in China historically occurred about every ten years, usually after dry summers were succeeded by warm winters. The swarms were mostly restricted by the surrounding uplands to the river valleys.[4] Low-lying land that floods intermittently in the delta areas of the Yellow River has been identified as outbreak centres. During the period 2002 to 2006, outbreaks of hopper bands in this locality were biologically controlled with the fungal pathogen Metarhizium acridum by ground and aerial applications, giving a kill rate greater than 90%.[8]
In the Philippines, there were four major plagues in the first half of the twentieth century. They seem to have originated in southern Mindanao around Sarangani Bay. They tended to follow periods of below average rainfall. Since about 1960, the Oriental migratory locust has been less of a problem in the Philippines, probably because cultivation practices have changed and there is less untended grassland where populations can build up undetected.[4]
An outbreak in southern Japan was discovered on an uninhabited island in 1986.[4] A wildfire had restricted the area available to the locusts for feeding and later provided ideal conditions for egg deposition. Hopper bands with a density of 1000 insects per square metre roamed around and swarms of adults occurred over the whole island; the outbreak was brought under control later in the year by spraying.[4]
參考文獻
编辑- ^ 刘玉素; 卢宝廉. 东亚飞蝗(LOCUSTA MIGRATORIA MANILENSIS Meyen)生殖系统的解剖和组织构造. 昆虫学报(ACTA ENTOMOLOGICA SINICA). 1959, 1959年 (1) [2016-06-05]. (原始内容存档于2019-06-11) (中文(简体)).
- ^ Uvarov, B. P. The Oriental Migratory Locust (Locusta migratoria manilensis, Meyen 1835). Bulletin of Entomological Research. 1936, 27 (1): 91–104. doi:10.1017/S0007485300058144.
- ^ 3.0 3.1 郭郛. 东亚飞蝗(LOCUSTA MIGRATORIA MANILENSIS Meyen)的生殖. 昆虫学报(ACTA ENTOMOLOGICA SINICA). 1956, 1956年 (2) [2016-06-05]. (原始内容存档于2019-06-06) (中文(简体)).
- ^ 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 Oriental migratory locust - Locusta migratoria manilensis. Locust Handbook. Humanity Development Library. [2015-04-06]. (原始内容存档于2015-04-12).
- ^ 蔡承豪,〈飛蝗遮天:東亞飛蝗侵襲下的臺灣社會景況與官方因應(1896~97)〉。
- ^ Xiongbing Tu; Zhihong Li; Jie Wang; Xunbing Huang; Jiwen Yang; Chunbin Fan; Huihui Wu; Qinglei Wang; Zehua Zhang. Improving the Degree-Day Model for Forecasting Locusta migratoria manilensis (Meyen) (Orthoptera: Acridoidea). PLOS ONE. 2014, 9 (3): e89523. doi:10.1371/journal.pone.0089523.
- ^ Michel Lecoq and Sukirno. Drought and an Exceptional Outbreak of the Oriental Migratory Locust, Locusta migratoria manilensis (Meyen 1835) in Indonesia (Orthoptera: Acrididae). Journal of Orthoptera Research. 1999, 8: 153–161. JSTOR 3503438.
- ^ Guoxiong Penga; Zhongkang Wanga; Youping Yina; Dengyu Zenga; Yuxian Xia. Field trials of Metarhizium anisopliae var. acridum (Ascomycota: Hypocreales) against oriental migratory locusts, Locusta migratoria manilensis (Meyen) in Northern China. Crop Protection. 2008, 27 (9): 1244–1250. doi:10.1016/j.cropro.2008.03.007.