Among the Coleoptera, case bearing is found in four related subfamilies of the Chrysomelidae, the so-called Camptosomates: Clytrinae, Cryptocephalinae, Chlamisinae, and Lamprosomatinae (Böving and Craighead, 1931). Adults of casebearing chrysomelids feed on foliage of a variety of eudicots (Erber, 1988), but their larvae often show departures from strict phytophagy. Besides those with true herbivore larvae, that feed on green plant parts and complete development on the host plant, the larvae of most species live on the ground, in leaf litter, and feed on dry vegetable material and detritus (Erber, 1988; Brown and Funk, 2005). The larvae of some clytrine species live in ant nests (Erber, 1988; Brothers et al., 2000), but besides these mirmecophiles, many other clytrine larvae live in leaf litter and some few others on plants (Erber, 1988; Jolivet, 1988). The genus Smaragdina Chevrolat is distributed in the Paleoarctic region, and in the Oriental region (Chûjô & Kimoto, 1961; Erber & Medvedev, 1999; Gök, 2003; Maican, 2005, 2006). Forth-three Smaragdina species are distributed throughout northeast Asia, from Korea to Japan (Gressitt & Kimoto, 1961; Kimoto & Takizawa, 1994, 1997). In Korea a total of 5 species were known by Lee and An (2001). Recently, Smaragdina nipponensis Chûjô is newly recorded by Park et al. (2011). However, for the clytrine larvae has never been studied from Korea. The present study contains the description of the egg and first instar larva of S. nipponensis with notes on biology of adults and larvae, observes in natural conditions and in laboratory.

Immature stages of Mantura rustica (Linnaeus) are described in detail for the first time in Korea. A key to identifying larvae of Korean Mantura is provided, with their illustrations and larval tubercle pattern.

The genus Lilioceris Reitter, 1912, containing generally thirty species of two subgenera, is distributed Oriental regions (Gressit and Kimoto, 1961). Seven species were recorded in Korea (Lee and An, 2001). Many of them are important pests on medicinal plants and garden flowers (lily, yam, etc). There have been a few studies on the adult taxonomy of Korean Lilioceris (Gressitt and Kimoto, 1961; An et al., 1986; An and Kwon, 1995, An, 1995, 1996, 1998, Lee and An, 2001). Although the main damage to the plants is caused by their larvae, nothing is known about the immature stages of Korean Lilioceris. L. (L.) ruficollis is associated with the host plants of Dioscorea (Dioscoreaceae), especially D. septemioba which is a well-known medicinal plant in Korea. In the present paper, detailed descriptions and illustrations of the immature stages of L. (L.) ruficollis are provided for the first time. Some remarks on their biology are also given.

We investigated mating conditions about care temperature of queen before mating, mating period, and number of queen per mating cage to improve mating rate of Bombus terrestris. Among 19℃, 22℃ and 25℃, care temperatures of queen before mating, queen cared at 19℃ was more effective than those at 22℃ and 25℃ in death rate during care and mating periods, and colony development. In case of mating period, oviposition rate and preoviposition periods at queen mated during 3 days were 89.3% and 11.4 days, respectively, which was higher and earlier than those of queen mated during 5 days and 7 days. The rate of worker emergence, colony foundation and progeny-queen production at 3 daysmated queen were also 2.0-11.6% higher than those at queen mated during 5 days and 7 days. In number of queen per mating cage, the rate of worker emergence, colony foundation and progeny-queen production queen mated at mating cage with 10 queens and 30 males were 41.5%, 25.9% and 23.2%, respectively. These values correspond to 1.5-6.8 folds those queen mated at cage with 20 queens and 30 queens. Therefore, we supposed that care temperature favorable for B. terrestris queen was 19℃ and the period need to mating was 3 days, and the number of queen per mating cage (55× 45× 65㎝) was 10.