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Effects of four constant temperatures on the development of two Bradysia (Diptera: Sciaridae) species
Author(s) -
Gou Yuping,
Guo Sufan,
Quandahor Peter,
Li Chunchun,
Zhang Qiangyan,
Zhou JingJiang,
Liu ChangZhong
Publication year - 2021
Publication title -
journal of applied entomology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.795
H-Index - 60
eISSN - 1439-0418
pISSN - 0931-2048
DOI - 10.1111/jen.12863
Subject(s) - biology , sciaridae , fecundity , hatching , population , longevity , impatiens , zoology , botany , larva , demography , genetics , sociology , cultivar
In this study, the effects of temperature on the growth, development, survival, fecundity and other population parameters of two local Bradysia species B. odoriphaga and B. impatiens were studied at four constant temperatures (25, 28, 31 and 34°C). The results show that 25°C is the optimum temperature for the growth and development of B. odoriphaga , while 28°C is more favourable for B. impatiens . The temperature of 31°C restricted the growth and development, while the temperature of 34°C inhibited the eggs hatching in both species, resulting in no egg survival and no subsequent development. High temperatures (>28°C) prolonged the 4th larval stage duration, mean generation time (T) and population doubling time (Dt) of both species. The high temperature of 31°C greatly shortened the female longevity, weakened the oviposition and reduced the survival of both species. Moreover, the life table parameters R 0 , r m and λ were also suppressed by this high temperature. However, the high temperature of 31°C had little impact on the egg survival, pupal weight and male longevity. In addition, at 31°C, the values of R 0 , r m and λ of B. odoriphaga were higher than those of B. impatiens , suggesting that B. odoriphaga is more tolerant to high temperature than B. impatiens . The differences between two Bradydsia species seem determined genetically. Our findings are important for better understanding their biological characteristics at a certain constant temperature and demonstrate the possibility to control and manage those two Bradysia species by increasing ambient temperature.