Influence of larval density on biological fitness of <i>Ephestia kuehniela</i> Zeler (Lepidoptera Pyralidae )

Authors

  • J. Xu
  • Q. Wang
  • X.Z. He

DOI:

https://doi.org/10.30843/nzpp.2007.60.4600

Abstract

Mediterranean flour moth Ephestia kuehniella is a cosmopolitan pest of stored products and its eggs are widely used to rear parasitoids and predators for biological control programmes This experiment investigated how larval population density affected the survival rate and reproductive output of this species under four rearing densities (1 larva per 2 g food per vial; or 100 500 or 1000 larvae per 50 g food per jar) The survival rate and reproductive output significantly decreased (P<00001) with increased larval density On average 91 73 50 and 10 of neonate larvae survived to adults and each resultant adult produced an average of 339 321 253 and 183 viable offspring at densities of 1 100 500 and 1000 larvae respectively When the cost of labour is taken into consideration a rearing density of 100 neonate larvae per 50 g food per jar is recommended to produce satisfactory quantity and quality of E kuehniella adults and eggs

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Published

2007-08-01

How to Cite

Xu, J., Q. Wang, and X.Z. He. “Influence of Larval Density on Biological Fitness of &lt;i&gt;Ephestia kuehniela&lt;/i&Gt; Zeler (Lepidoptera Pyralidae )”. New Zealand Plant Protection 60 (August 1, 2007): 199–202. Accessed October 23, 2021. https://journal.nzpps.org/index.php/nzpp/article/view/4600.

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