The objective of this study was to compare different superovulation treatments using PMSG or PG600 and to determine the optimal time of oocyte recovery after hCG administration. A total of 90 prepubertal Yorkshire x Landrace gilts crossed with Duroc, 6~7 months old and 100~120 kg of body weight, were used. PMSG (1,500 IU/head) or 5~7.5 ml of PG600(400 IU of PMSG and 200 IU of hCG) were administrated subcutaneously, and then 1,000 IU of hCG were administered intramuscularly at 72 hours after PMSG or PG600 injection. At carious time of 44, 46, 48 and 50 hours after hCG injection, superovulated gilts were slaughtered in a local abattoir. Ovaries together with oviducts were excised from the body immediately after slaughtered and transported to laboratory in 39 saline. Ovaries were examined fur the number of corpus hemorrhagicum and unovulated follicles present in the surface of ovary. The unovulated follicles were categorized into small (1~3 mm in diameter) and large (4~8 mm) groups according to their diameter. Oocytes were recovered by flushing both oviducts with micropipette tip (1~100 l) attached to a 10-ml disposable syringe. The number of CH on ovary and recovered oocytes at 46, 48 and 50 hr after hCG injection in PG600 treated groups were significantly higher than the other group. Group of phCG 50 hr among PMSG treated groups had a greater number of CH and recovered oocytes(P<0.05). The number of CH on ovary and recovered oocytes at 50 hr after hCG injection in 1 vial(7.5 ml) of PG600 treated groups was significantly higher than 1 vial(5 ml) of PG600 treated group(P<0.05). In conclusions, considering a number of corpus hemorrhagicum and recovered oocytes after superovulation in gilts, effective time of oocyte recovery by treatment with PMSG and hCG was post-hCG 50 hr and with PG600 plus hCG was post-hCG 46, 48 and 50 hr. Also, admini-stration of 1 vial(7.5 ml) of PG600 treated group had a great number of CH and recovered oocytes.covered oocytes.

We investigated vascular plants of Jindo Island in Jindo-gun, Jeollanam-do, Korea. A total of 22 field trips were carried out over the course of 48 days from May 2012 to October 2014. As a result, 782 taxa belong to 134 families, 437 genera, 704 species, 11 subspecies, 60 varieties and 7 forms were identified. These include the following: 2 taxa (Drosera peltata var. nipponica, Cleisostoma scolopendrifolium) of Endangered Wildlife Class II under the Act on Wildlife Protection and Management Law. 14 taxa of Korean endemic plants, 53 taxa of floristic regional indicator plants in the third to fifth degrees. In all, 73 taxa of naturalized plants were recorded with the naturalization rate of 9.3%.

We have investigated the flora of Yeongheungdo Island in Ongjin-gun, Incheon. A total of 13 separate field trips were carried out from March 2012 to October 2013. As a result, 302 taxa including 80 families, 211 genera, 261 species, 6 subspecies, 31 varieties and 4 forms were identified. These include the following: 1 taxon protected under the Act on the Protection and Management of Wildlife, 3 Korean endemic taxa, 8 floristic indicator species including 2 taxa of grade V, 3 of grade II and 3 of grade I, 33 naturalized taxa with the naturalization rate of 10.9% and 1 northern taxon vulnerable to climate change.