Annual Reproductive Cycle of Acheilognathus majusculus, a Korean Endemic Species

Lim, Jin-Yeong,Lee, Won-Kyo The Korean Society of Developmental Biology 2017 발생과 생식 Vol.21 No.3

An experiment was conducted to investigate the annual reproductive cycle of a Korean endemic species, Acheilognathus majusculus, from Jeokseong-myeon located in Seomjin River. The reproductive cycle is examined histologically regarding water temperature and day length of the habitat, the gonadosomatic index (GSI), the female ovipositor length index (OLI), monthly variation in egg diameter distribution, and developmental characteristics of female and male gonads. The maximum GSI was found in $19.21{\pm}2.32$ and $6.90{\pm}0.53$ for female and male respectively when water temperature ($14^{\circ}C$) and day length (11.1hr) began to rise. On the other hand, the minimum level was reached during August ($1.87{\pm}0.67$ for female and $0.88{\pm}0.50$ for male). No samples represent with measurable ovipositor between September and November, while the longest ovipositor length index was in April ($79.68{\pm}4.69%$). We compared and calculated the stages of testis and ovary development process in order to determine the germ cell development characteristics and the reproductive cycle. According to the result, we classified the female Acheilognathus majusculus reproductive cycle into four stages: Ripe (April) and spawning phase (May to June), degenerative phase (July), growing phase (August to December), and mature phase (January to March). The annual reproductive cycle of male Acheilognathus majusculus was categorized into five stages viz. Ripe and spawning phase (May to June), degenerative phase (July to August), resting phase (September to November), growing phase (December to February), and mature phase (March to April).

Annual Reproductive Cycle of Acheilognathus rhombeus, in Korea

기세운,고강희,이원교 한국발생생물학회 2019 발생과 생식 Vol.23 No.4

In this study, an experiment was conducted to investigate the annual reproductive cycle of a Korean flat bittering, Acheilognathus rhombeus, from Ogok-myeon located in Seomjin River. The reproductive cycle was examined histologically regarding water temperature and day length of the habitat, the gonadosomatic index (GSI), and developmental characteristics of female and male gonads. The maximum GSI was found to be 3.50±0.53 and 1.36±0.14 for females and males, respectively, when the water temperature and day light was 16.9℃ and 11.3 hours, respectively in October 2018. On the other hand, the minimum GSI was found to be 0.16±0.09 and 0.69±0.15 for males and females in December 2018 and February 2019, respectively. The ovipositor of females appeared from August to November 2018. We compared and calculated the stages of germ cell developmental characteristics in the testis and ovaries to determine the reproductive cycle. According to the result, we classified the female A. rhombeus reproductive cycle into four phases, which are ripe and spawning phase (October), degenerative phase (November to December), growing phase (January to March) and mature phase (April to September). The annual reproductive cycle of male A. rhombeus was categorized into four phases: mature phase (June to October), degenerative phase (November to March), resting phase (April) and growing phase (May). The Korean flat bittering is an autumn-spawner as the main spawning season in October. In male, testicular spermatogonia appeared all yearround, and the ripe and releasing phase, which is characteristics of the spawning season in other fish, did not appear.

Gonadal Development and Reproductive Cycle of the Top Shell, Omphalius rusticus(Gastropoda: Trochidae)

Lee, Ju Ha The Korean Society for Integrative Biology 2001 Korean journal of biological sciences Vol.5 No.1

Gonadal development, reproductive cycle, gonad index, meat weight rate, and first sexual maturity of the top shell, Omphalius rusticus were Investigated monthly by histological observations. Specimens were collected from the west coast of Korea during the period from January to December in 1999. O. rusticus is dioecious and oviparous. The gonad is widely situated on the surface of the digestive g1and located in the posterior spiral meat part in the shell. The ovary and the testis were composed of a number of oogenic follicles and several spermatogenic follicles, respectively. Ripe oocytes were approximately 120-130 $\mu$m in diameter. The meat weight rate peaked in June (27.7%), and then rapidly decreased in September (19.5%). Monthly changes in the gonad index in both sexes reached the maximum in June, and then sharply decreased in September. Percentages of first sexual maturity of female and male snails ranging from 9.0 to 9.9 mm in shell heights were 58.3% and 54.5%, respectively, and 100% in those over 11.0 mm in both sexes participated in reproduction. Reproductive cycle of this species can be categorized into five successive stages: in females, early active (October to April), late active (December to June), ripe (April to September), spawning (July to September) and recovery (September to January): in males, early active (November to March), late active (December to June), ripe (April to September), spawning (July to September) and recovery (September to December). Gonadal development, gametogenesis, reproductive cycle, and spawning were closely related to the seawater temperature.

한국 서해산 가무락조개, Cyclina sinensis의 번식생태 및 기생충에 관한 연구 1. 번식생태

김용호,정의용,김영길 한국패류학회 2000 The Korean Journal of Malacology Vol.16 No.1·2

1999년 4월부터 2000년 3월까지 서해 금강 하구인 내 초도에 서식하고 있는 가무락조개를 대상으로 자원증식 및 적정 관리를 위해 조직학적 방법에 의해 생식소지수, 생식 소발단단계에 따른 생식주기, 군성숙도를 조사하였다. 가무락조개는 자웅이체로서 난생이다. 가무락조개의 생식주기는 초기활성기(2-4월), 후기활성기(3-6월), 완숙기(4-8월), 부분산란기(7-10월초), 퇴화 및 비활성기(9-2월)의 연속적인 5단계로 구분할 수 있었다. 가무락조개의 산란기는 수온과 밀접한 관계를 가지며 수온이 24$^{\circ}C$이상인 7월부터 산란하기 시작하여 9월 중순까지로 산란성기는 7, 8월이었다. 고창산 가무락조개의 군성숙도는 각장 26.0-30.0 mm 사이에서 암, 수 공히 50% 이상이 재생산에 가담하였고, 각장 41.0 mm 이상에서는 100%가 산란에 참여하고 있다. 전 개체의 50%가 재생산에 가담하기 시작하는 개체들의 연령은 만 2세로 추정된다. We investigated the gonad index (GI), gonadal development, the reprodutive cycle and first sexual maturity of the venus clam, Cyclina sinensis by histological observation. Samples were collected from the intertidal zone of Komso Bay, Chollabuk-do, west coast of Korea, from April 1998 to March 1999. This clam is dioecious and oviparous. Monthly changes in the gonad index (GI) showed a similar pattern to the reproductive cycle. Ripe oocytes are about 90-100 ㎛ in diameter. The spawning period was between early July to September, and the main spawning occurred between July and August when the sea water temperature was over 20$\^{C}$ The reproductive cycle of this species can be divided into five successive stages: early active stage (February to April), late active stage (March to June), ripe stage (April to August), partially spawned stage (July to October), and spent / inactive stage (September to February). Percentages of first sexual maturity of female and male clams measuring 26.1-30.0 ㎜ in shell length were 53.3% and 62.5%, respectively, and 100% for the clams > 41.0 ㎜. It is assumed that both sexes begin reproduction at about two years age.

퇴조개, Coecella chinensis (Mesodesmatidae: Bivalvia) 의 생식주기

김진희,손민호,강희웅,이기영 한국패류학회 2013 The Korean Journal of Malacology Vol.29 No.2

The reproductive cycle, gonad index, condition index, and the sex ratio in female and male Coecella chinensis, which were collected from the coastal waters of Namhae, the South Coast of Korea, were investigated by histological analysis and morphometric data. Monthly variations of the gonad index and condition index of this species showed similar patterns to that of the reproductive cycle. The reproductive cycle in female and male C. chinensis can be classified into six successive stages: early active stage (April), late active stage (May), ripe stage (June), partially spawned/spent stage (June to August), degeneration stage (August) and inactive stage (September to March). According to monthly changes in relative frequency distributions of ovarian egg diameters of this species, in particular, a number of ripe eggs ranging about 70 µm appear in June, however, in July and August, although the mode of egg diameters ranging about 50 µm appear about 80%, these ripe eggs ranging from 60 µm to 70 µm are gradually decreased during the period from June to August. Therefore, the spawning period of this species is continued from June to August with a peak between July and August when the seawater temperature exceeds about 24.5°C. The sex ratio of female and male individuals was not significantly different from 1:1 (χ2 = 1.20, p > 0.05). No hermaphrodites were found. 한국 남해안 남해 연안에서 채집한 퇴조개 (Coecellachinensis) 를 대상으로 생식주기, 생식소지수, 비만도지수 및성비를 조직학적 분석 및 형태 계량학적 자료에 의해 조사하였다. 생식소지수 및 비만도지수의 월별 변화는 생식주기의 월별변화와 유사한 양상을 보였다. 암컷과 수컷 퇴조개의 생식주기는 초기활성기 (4월), 후기활성기 (5월), 완숙기 (6월), 부분산란기/방정기 (6-8월), 퇴화기 (8월) 및 비활성기 (9-3월) 의 연속적인 6기 (stages) 로 구분할 수 있었다. 본 종의 산란기는6-8월이었으나, 주산란기는 수온이 약 24.5°C인 7-8월이었다. 난경 모드 조사에서, 6월에는 특히 70 μm 정도의 난모세포가 다수 출현하였으나, 7-8월에는 평균 50 μm 전후의 난모세포가 약 80% 정도 출현하는 대신, 60-70 μm 전후의 완숙난모세포는 감소하였다. 암․수 개체들의 성비는 1:1로 유의하게 다르지 않았으며 (χ2 = 1.20, p > 0.05), 자웅동체는 발견되지 않았다.

Reproductive Cycle and Spawning Rhythm of the Ascidian, Halocynthia hilgendorfi ritteri

Choi, Young-Jin,Lee, Chi-Hoon,Rho, Sum,Lee, Young-Don The Korean Society for Integrative Biology 2004 Korean journal of biological sciences Vol.8 No.1

Reproductive cycle and spawning rhythm with lunar cycle of the ascidian, Halocynthia hilgendorfi ritteri were investigated by histological examination. The specimens were sampled in the coastal waters of Yongdam, northwest of Jeju Island, Korea, from November 2001 to January 2003. H. hilgendorfi ritteri is a synchronous hermaphrodite; the gonads are located in the mantle. The reproductive cycle can be grouped into the following successive stages in the ovary: growth (February to June), vitellogenesis (April to September), mature (July to December), spent (November to February), and recovery (December to April). Likewise, in the testis, the stages observed were: growth (October), mature (October to December), spent (November to February), and resting (January to September). Major spawning probably occurs between November and January, when water temperatures decrease. The histological observations of the gonads suggested that this species is a multiple spawner during the spawning period. Spawning occurred between the new moon and full moon, and again between the full moon and new moon, suggesting that the spawning rhythm is influenced by the lunar cycle.

The Annual Reproductive Cycle of Silurus microdorsalis, a Korean Endemic Species

Se-Un KI,이원교 한국발생생물학회 2018 발생과 생식 Vol.22 No.1

The annual reproductive cycle of the Korean endemic slender catfish, Silurus microdorsalis, was examined his-tologically regarding water temperature and day length of habitat, gonadosomatic index (GSI), and development characteris-tics of female and male gonads. The maximum GSI value was found in May, 1.23±0.33 and 11.77±3.23 for male and female respectively (habitat water temperature 21.5℃/13.59hr day length). On the other hand, the minimal level was 0.63±0.10 in Ju-ly (26.5℃/14.17) for male and 1.36±0.08 in October (20℃/11.2hr) for female. We compared and calculated the stages of tes-tis and ovary development process in order to determine the germ cell development characteristics and the reproductive cycle. According to results, we classified the annual reproductive cycle of the slender catfish into five stages: Growing phase (De-cember-February), Mature phase (March-April), Ripe and spawning phase / Releasing phase in male (May-June), Degenera-tive phase (July-August), and Resting phase (September-November).

The Annual Reproductive Cycle, Proximate Composition, Fatty Acid and Amino Acid Content of Pacific Oyster, Crassostrea gigas (Magallana gigas), in Gadeok-do, Korea

조인규,서봉승,황수연,이예인,문지성,박수진,이희정,허영백,최윤희 한국발생생물학회 2023 발생과 생식 Vol.27 No.3

Environmental factors impact oyster growth, condition, and gonadal development, which is linked to gamete characteristics observed through histology. The reproductive cycle of bivalves is related to energy storage and utilization. Therefore, in this study, the year-round growth change and gonadal development of oysters were observed using histological analysis, and the biochemical composition changes were confirmed. The oysters used in this study are being nurtured in Gadeok-do, and 40 oysters were randomly sampled monthly from March 2021 to February 2022. Result of histological analysis of gonads, oysters were showed early development from December to February, late development from March and April, mature and ripe from May to July, spawned from August to October, and spent from November to December. Condition index values of oysters decreased in summer and autumn and increased again when entered the spent after spawning. The protein content of oysters was high in May, the maturity period, and the lipid content decreased during the spawning period. In addition, EPA and DHA, the major fatty acids of oysters, were low during the spawning period and high during the maturation period. As a result, this study suggested a close relationship between changes in oyster growth, biochemical composition, and the reproductive cycle.

The Annual Reproductive Cycle of Silurus microdorsalis, a Korean Endemic Species

KI, Se-Un,LEE, Won-Kyo The Korean Society of Developmental Biology 2018 발생과 생식 Vol.22 No.1

The annual reproductive cycle of the Korean endemic slender catfish, Silurus microdorsalis, was examined histologically regarding water temperature and day length of habitat, gonadosomatic index (GSI), and development characteristics of female and male gonads. The maximum GSI value was found in May, $1.23{\pm}0.33$ and $11.77{\pm}3.23$ for male and female respectively (habitat water temperature $21.5^{\circ}C/13.59hr$ day length). On the other hand, the minimal level was $0.63{\pm}0.10$ in July ($26.5^{\circ}C/14.17$) for male and $1.36{\pm}0.08$ in October ($20^{\circ}C/11.2hr$) for female. We compared and calculated the stages of testis and ovary development process in order to determine the germ cell development characteristics and the reproductive cycle. According to results, we classified the annual reproductive cycle of the slender catfish into five stages: Growing phase (December-February), Mature phase (March-April), Ripe and spawning phase / Releasing phase in male (May-June), Degenerative phase (July-August), and Resting phase (September-November).

Gonadal Development, First Sexual Maturity and Sex Ratio of the Sun and Moon Scallop Amusium japonicum japonicum on the Coastal Waters of Jejudo, Korea

손팔원,정의영 한국발생생물학회 2005 발생과 생식 Vol.9 No.2

한국 제주도산 해가리비(Amusium japonicum japonicum)를 대상으로 생식주기, 생식소중량지수(GSI), 난경조성 변화, 군성숙도, 성적 성숙체장(50% 군성숙도) 및 성비를 조직학적 관찰 및 생체 측정에 의해 조사하였다. 해가리비는 자웅이체이다. 생식소 중량지수(GSI)의 월별 변화는 생식주기와 유사한 양상을 보였다. 완숙 난모세포들은 직경이 약 정도이며, 두터운 난막을 가지는 특징을 가지고 있다. 산란기는 11월부터 1월 사이이며 Reproductive cycle, gonadosomatic index(GSI), egg diameter composition, first sexual maturity, sexually matured length(50% of first sexual maturity), and sex ratio of Amusium japonicum japonicum, were investigated by histological observations and morphometric data. Samples were collected monthly from the subtidal zone of Sogwipo, Jejudo, Korea, for two years. The sun and moon scallop Amusium japonicum japonicum is dioecious. Monthly variation in the GSI showed similar patterns with the reproductive cycle. Ripe oocytes were about in diameter and had thick egg membranes. The spawning period was from November to January, and the main spawning occurred between November and December when the seawater temperature was relatively low. From monthly changes in egg diameter composition, the spawning period was once a year, although the number of spawning frequencies is assumed to occur more than twice during the spawning season. The reproductive cycle of this species could be divided into five successive stages: early active stage(April to June), late active stage(June to September), ripe stage(October to November), spawning stage(November to January), and spent/resting stage(February to April). First sexual maturities in female and male scallops ranging from 85.1 to 90.0mm in shell length were over 50% and they were 100% for scallops over 90.0mm in shell length. In this population, sexually matured shell lengths(50% of rate of group maturity) in females and males were 86.96 and 86.59mm, respectively. The female to male sex ratio among individuals over 85.1mm in shell length was not significantly different from 1:1(, p>0.05). No evidence of hermaphrodite was found in histological sections of any scallop examined.