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Seasonal Variation in the Species Composition of Fish Assemblages in the Coastal Waters off Gadeok-do, South Sea, Korea

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수심이얕은연안해역은기초생산력이높아많은어종들의 란장, 성육장섭식장소로중요한역할을한다. 가덕도주변 해역역시수심이얕고, 낙동강하구와인접해있어풍부한영양 염의유입으로인해유기물함량이매우높으며, 먹이생물이 부하고다양한서식처제공으로많은어류들이서식하고있다. 이와같은높은생산력을바탕으로오래전부터전통어업과 식업이발달하였으나(An and Huh, 2000) 1960년대이후급격 도시화, 산업화가이루어지고, 낙동강하구둑, 신항만건설, 거가대교건설연안개발로많은변화가일어나고있다. 부산신항은부산광역시강서구가덕도와경남진해시용원

일대에건설되고있는국내최대의항만이다(Kim and Jang,

2011). 이러한연안개발로인하여가장먼저영향을받는

하나가해양생물이며, 개발에따른생물상연구는변화된

경과자원보존, 관리에있어중요하다. 가덕도주변해역에출현 하는어류의종조성에관한연구는소형기선저인망, 삼각망, 꽃게통발, 저층자망과같은다양한어구를통하여이루어진 있다(An and Huh, 2000; Huh and An, 2002a, An and Huh, 2002b, An and Huh, 2003). 하지만조사는신항만과거가대 완공시점부터이루어졌으며, 선행연구가 10대규모 건설 · 공사이전에이루어졌기때문에어류상에변화가있을 것으로추측된다. 그리고향후신도시개발이추가적으로 것으로알려지면서인구증가와오염물유입이예상되어 재의어류상을비롯한해양생물에관한연구는중요하다(Yun and Piak, 2001).

연구는현재가덕도주변해역에출현하는어류의종조성 계절변동을알아보며, 선행연구와의어류상비교를통하여 지속적인연안개발이이루어지고있는가덕도연안해역의적절 어족자원관리와보존을위한기초자료를제공하고자한다.

Article history;

Received 30 October 2013; Revised 27 November 2013; Accepted 5 December 2013

*Corresponding author: Tel: +82. 55. 772. 9156 Fax: +82. 55. 772. 9159 E-mail address: [email protected]

Kor J Fish Aquat Sci 46(6) 948-956, December 2013 http://dx.doi.org/10.5657/KFAS.2013.0948 pISSN:0374-8111, eISSN:2287-8815

The Korean Society of Fishereis and Aquatic Science. All rights reserved

Jae Mook Jeong, Joo Myun Park2, Sung Hoi Huh2, Sang Jin Ye, Hyeon Ji Kim, Gun Wook Baeck1*

Department of Marine Biology & Aquaculture, Gyeongsang National University, Tongyeong 650-160, Korea

1Institute of Marine Industry, Gyeongsang National University, Tongyeong 650-160, Korea

2Department of Oceanography Pukyong National University, Busan 608-737, Korea

Seasonal variations in species composition and abundance of the fish assemblages in the coastal waters off Gadeok-do were deter- mined using monthly sample collection by a small otter trawl in 2010-2011. Of a total of 65 fishes collected, the dominant species were Leiognathus nuchalis, Clupea pallasii, Thryssa kammalensis, Engraulis japonicus, Repomucenus valenciennei, Sillago ja- ponica, Trachurus japonicus, Pennahia argentatus, Okamejei kenojei, Cynoglossus joyneri, Pholis fangi, Pleuronectes yokohamae, and Zoarces gillii. These 13 fishes accounted for 92.8% of the total number of individuals collected. The number of fish species, number of individuals, biomass, and species diversity indices fluctuated with the seasons. The peak number of fishes occurred in April, whereas the biomass of fishes was highest in August. The numbers and biomass of fishes were lower in February correspond- ing with the low temperatures, and diversity indices were lower in January than in any other month.

Key words: Gadeok-do, Small otter trawl, Seasonal variation, Fish assemblage

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가덕도 어류의 종조성과 계절변동 949

재료 및 방법

연구에 사용된시료는 남해가덕도 주변해역에서 2010 10월부터 2011 9월까지매월 1소형기선저인망(small bottom otter trawl)이용하여채집하였다(Fig. 1). 조사해역 출현하는어류의출현량변동에영향을미치는환경요인을

측정하기위하여매월표층과저층(수심 20 m)수온, 염분

휴대용수온·염분측정계(Thermo Electron Co. Ltd) 용하여측정하였다. 연구에사용된저인망은길이 20 m, 5 m, 날개그물의망목은 3.5 cm, 자루그물의망목은 1.5 cm였다. 예인속도를 3 km/h하여 1시간씩 2예망하였

. 채집된생물은냉장보관(ice box)하여즉시실험실로운반

, Chyung (1977), Nakabo (2002), Kim et al. (2005) 종별로동정, 분류하였다. 월별어류군집구조를비교하 위하여 Shannon and Wiener종다양도지수(H')구하였 (Shannon Wiener, 1949).

ni (: i번째종의월별출현개체수, N: 특정달에채집된종의 개체수, S: 출현종수)

log10(χ+1) 통계분석을위한자료의정규화(Normality) 산을동질화(homocedasticity) 시키고우점종의 bias줄이기 위하여어류출현량의로그변환[logarithmic transformations, log10(χ+1)] 수행하였다. 월별어류군집의변화를분석하기 위하여분산분석(one-way ANOVA)실시하였고, Tukey test 통하여검정하였다.

출현종에대한출현시기의유사도는 Pianka (1973)중복

도지수를이용하여구하였다. Aij= I Pij-Pjh I

(Pih+Pjh )

(Pih: 채집시기 h채집된전체개체수에대한어종 i개체 수의비율

Pjh: 채집시기 h채집된전체개체수에대한어종 j개체 비율)

구해진유사도를이용하여출현시기의유사성을나타내기 하여다차원척도법(MDS, Multi-dimensional scaling)이용 하였다. 이때비우점종(5,000 indi./km2이하)오류를증가시 확률이높기때문에분석에서제외시켰다.

결 과

수온 및 염분

조사해역의수온은표층과저층에서측정하였는데, 각각 7.3- 25.4℃, 7.0-24.5℃범위를보였다(Fig. 2). 표층과저층 층에서겨울철인 1월에가장낮았으며, 여름철인 8월에가장 측정되었다. 연교차는표층이 18.1℃, 그리고저층이 17.5℃

표층수온이저층수온에비하여계절변동이비교적컸다. Temperature (˚C)Salinity (psu)

0 5 10 15 20 25 30

Surface temperature(˚C) Bottom temperature(˚C)

0 5 10 15 20 25 30 35 40

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sep.

Surface salinity (psu) Bottom salinity (psu)

(2011) (2010)

(2011) (2010)

0.0 0.5 1.0 1.5 2.0 2.5

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May. Jun. Jul. Aug. Sep.

(C)

No. of individual (x 100)No. of speciesBiomass (kg)

0 5 10 15 20 25

(B)

Diversity index (H')

0 10 20 30

(A)

(D) 0 10 20 30 40 50

(C)

Oct, n = 636 (2010)

Nov, n = 417

Jan, n = 1384 (2011)

Feb, n = 16

Mar, n = 184

Apr, n = 28

May, n = 7

Jun, n = 4

Jul, n = 19

Aug, n = 5

Sep, n = 7

Standard length (cm)

50

1 5 3 9 15

Nov, n = 4 Nov, n=345

Jan, n = 3

Feb, n = 0

Mar, n = 10

Apr, n = 1408

May, n = 51

Jun, n = 120

Jul, n = 7

Aug, n = 0

Sep, n = 0

10 5 10 15

Oct, n = 266

Jan, n = 84

Feb, n = 1

Mar, n = 75

Apr, n = 0

May, n = 0

Jun, n = 0

Jul, n = 62

Aug, n = 15

Sep, n = 93

4 8 12

Nov, n = 2

Jan, n = 35

Feb, n = 0

Mar, n = 0

Apr, n = 67

May, n = 15

Jun, n = 219

Jul, n = 0

Aug, n = 2

Sep, n = 101 Oct, n = 1

Leiognathus nuchalis Clupea pallasii Thryssa kammalensis Engraulis japonicus

L.n C.p

T.k

E.j R.b

S.j T.j

A.a C.jO.k

P.f P.y

Z.g Stress: 0.09

Group. Ⅳ

Group. Ⅰ Group. Ⅲ

Group. Ⅱ

35˚04´N35˚02´N35˚00´N

128˚46´E Sampling Site

Gadeok-do

Korea

128˚50´E 128˚54´E

Temperature (˚C)Salinity (psu)

0 5 10 15 20 25 30

Surface temperature(˚C) Bottom temperature(˚C)

0 5 10 15 20 25 30 35 40

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sep.

Surface salinity (psu) Bottom salinity (psu)

(2011) (2010)

(2011) (2010)

0.0 0.5 1.0 1.5 2.0 2.5

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May. Jun. Jul. Aug. Sep.

(C)

No. of individual (x 100)No. of speciesBiomass (kg)

0 5 10 15 20 25

(B)

Diversity index (H')

0 10 20 30

(A)

(D) 0 10 20 30 40 50

(C)

Oct, n = 636 (2010)

Nov, n = 417

Jan, n = 1384 (2011)

Feb, n = 16

Mar, n = 184

Apr, n = 28

May, n = 7

Jun, n = 4

Jul, n = 19

Aug, n = 5

Sep, n = 7

Standard length (cm)

50

1 5 3 9 15

Nov, n = 4 Nov, n=345

Jan, n = 3

Feb, n = 0

Mar, n = 10

Apr, n = 1408

May, n = 51

Jun, n = 120

Jul, n = 7

Aug, n = 0

Sep, n = 0

10 5 10 15

Oct, n = 266

Jan, n = 84

Feb, n = 1

Mar, n = 75

Apr, n = 0

May, n = 0

Jun, n = 0

Jul, n = 62

Aug, n = 15

Sep, n = 93

4 8 12

Nov, n = 2

Jan, n = 35

Feb, n = 0

Mar, n = 0

Apr, n = 67

May, n = 15

Jun, n = 219

Jul, n = 0

Aug, n = 2

Sep, n = 101 Oct, n = 1

Leiognathus nuchalis Clupea pallasii Thryssa kammalensis Engraulis japonicus

L.n C.p

T.k

E.j R.b

S.j T.j A.a

C.jO.k

P.f P.y

Z.g Stress: 0.09

Group. Ⅳ

Group. Ⅰ Group. Ⅲ

Group. Ⅱ

35˚04´N35˚02´N35˚00´N

128˚46´E Sampling Site

Gadeok-do

Korea

128˚50´E 128˚54´E

Fig. 1. Location of the study area ( Ο ).

Fig. 2. Monthly variations of temperature and salinity in coastal waters off Gadeok-do, 2010-2011.

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정재묵 박주면허성회예상진김현지백근욱 950

염분은표층이 21.8-33.3 psu, 저층이 30.4-33.7 psu범위를 보였다. 표층염분은 6월부터감소하기시작하여 8월에가장 측정되었다. 이는여름철강우량증가와인근에위치한낙동 강에서유입되는담수의증가때문인것으로판단된다. 종조성

조사기간 동안 11, 43, 65, 306,800 indi./km2, 7,435.8 kg/km2어류가채집되었다(Table 1). 분류군별(Or- der) 출현어종수를살펴보면농어목(Perciformes) 어류가 21 28종으로가장많이채집되었으며, 다음으로쏨뱅이목

(Scorpaeniformes) 어류가 7 11, 가자미목(Pleuronecti- formes) 어류가 3 8채집되었다. 뱀장어목(Anguil- liformes) 어류가 3 3, 청어목(Clupeiformes) 어류는 2 4 , 복어목(Tetraodoniformes) 어류가 2 3채집되었으며, 홍어목(Rajiformes), 홍매치목(Aulopiformes), 대구목(Gadi- formes), 아귀목(lophiiformes), 달고기목(Zeiformes) 1 1 종씩채집되었다.

개체수에서 가장 많이 채집된 어종은 주둥치(Leiognathus nuchalis) 90,533 indi./km2 채집되어 전체 채집 개체수 29.5%차지하였다. 다음으로는청어(Clupea pallasii) 63,467 indi./km2채집되어전체개체수의 20.7%차지 하였다. 청멸(Thryssa kammalensis), 멸치(Engraulis ja- ponicus), 실양태(Repomucenus valenciennei), 청보리멸(Sil- lago japonica), 전갱이(Trachurus japonicus), 보구치(Penna- hia argentatus), 홍어(Okamejei kenojei), 참서대(Cynoglossus joyneri), 흰베도라치(Pholis fangi), 문치가자미(Pleuronectes yokohamae), 등가시치(Zoarces gillii) 순으로많이채집되었는 , 상기 13종은 5,000 indi./km2이상채집되었으며전체채집 개체수의 92.8%차지하여우점하였다. 붕장어(Conger myriaster), 열동가리돔(Apogon lineatus), 노랑촉수(Upeneus japonicus) 65종의어류가채집되었다.

생체량에서는홍어가 3,004.3 kg/km2채집되었으며전체 집생체량의 40.5%차지하여가장우점하였다. 다음으로 보구치, 문치가자미, 청멸, 참서대, 주둥치순으로우점하였 . 상기 6종은생체량의 72.7%차지하였다.

계절변동

채집어종수의계절변동을살펴보면(Fig. 3A), 조사가시작된 2010 10월에서 2011 1월까지는 24-28종이채집되었고 2 월에는 17종으로연중가장적은종이채집되었다(P<0.05). 2011 3월에서 5월까지는 18-23, 6월에는 29종으로 가장많은종이채집되었으며 7월에서 9월까지는 25-27종으 비슷한어종수가채집되었다.

채집개체수(P<0.05) 생체량(P<0.05) 계절변동을살펴 보면(Fig. 3B, C), 2011 8월과 9월에적은개체수에비하여

높은생체량을보였는데이는생체량이높은홍어가각각 711.5

kg/km2, 295.4 kg/km2으로다량채집되었기때문이다. 1월과

4월에는많은개체수를보인반면비교적낮은생체량을보인

이유는크기가작은반면개체수가많은주둥치와청어가각각 21,200 indi./km2, 56,933 indi./km2개체로다량채집되었기 문이다. 2월에는가장적은개체수와여덟번째로적은생체량 보였으며, 3월에는번째로적은개체수와가장적은생체 량을보였다. 이후 5월부터 9월까지는 14,300-21,567 indi./km2 개체로비교적적은개체수를보였다. 5월에서 8월까지의생체 량은 525.5-1,473.6 kg/km2으로증가하는경향을보이다가 9 981.7 kg/km2으로감소하는경향을보였다.

Temperature (˚C)Salinity (psu)

0 5 10 15 20 25 30

Surface temperature(˚C) Bottom temperature(˚C)

0 5 10 15 20 25 30 35 40

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sep.

Surface salinity (psu) Bottom salinity (psu)

(2011) (2010)

(2011) (2010)

0.0 0.5 1.0 1.5 2.0 2.5

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May. Jun. Jul. Aug. Sep.

(C)

No. of individual (x 100)No. of speciesBiomass (kg)

0 5 10 15 20 25

(B)

Diversity index (H')

0 10 20 30

(A)

(D) 0 10 20 30 40 50

(C)

Oct, n = 636 (2010)

Nov, n = 417

Jan, n = 1384 (2011)

Feb, n = 16

Mar, n = 184

Apr, n = 28

May, n = 7

Jun, n = 4

Jul, n = 19

Aug, n = 5

Sep, n = 7

Standard length (cm)

50

1 5 3 9 15

Nov, n = 4 Nov, n=345

Jan, n = 3

Feb, n = 0

Mar, n = 10

Apr, n = 1408

May, n = 51

Jun, n = 120

Jul, n = 7

Aug, n = 0

Sep, n = 0

10 5 10 15

Oct, n = 266

Jan, n = 84

Feb, n = 1

Mar, n = 75

Apr, n = 0

May, n = 0

Jun, n = 0

Jul, n = 62

Aug, n = 15

Sep, n = 93

4 8 12

Nov, n = 2

Jan, n = 35

Feb, n = 0

Mar, n = 0

Apr, n = 67

May, n = 15

Jun, n = 219

Jul, n = 0

Aug, n = 2

Sep, n = 101 Oct, n = 1

Leiognathus nuchalis Clupea pallasii Thryssa kammalensis Engraulis japonicus

L.n C.p

T.k

E.j R.b

S.j T.j A.a

C.jO.k

P.f P.y

Z.g Stress: 0.09

Group. Ⅳ

Group. Ⅰ Group. Ⅲ

Group. Ⅱ

128˚46´E 128˚50´E 128˚54´E

Fig. 3. Monthly variations of number of species (A), number of individuals (B), biomass (C) and diversity index (D) of fishes col- lected by small otter trawl in the coastal waters off Gadeok-do.

(4)

가덕도 어류의 종조성과 계절변동 951

종다양도지수는(P<0.05) 1(0.70) 4(0.75)제외하고 1.33-2.36범위를보였다(Fig. 3D). 1월과 4월에낮은 나타낸이유는 1월에주둥치가전체채집개체수의 80.9% 차지하였으며, 4월에는청어가전체채집개체수의 85.7% 지하여우점하였기때문이다. 월별개체수에서우점종의변화 살펴보면(Table 1), 2010 10, 11, 2011 1, 3월에는 주둥치가, 2월에는홍어, 4월에는청어, 5월에는등가시치, 6 9월에는멸치, 7월에는보구치, 8월에는전갱이가가장우점 하였다. 주요우점종의월별출현양상을살펴보면(Fig. 4), 주둥 치는 2010 10~2011 1월에는 5 cm (SL, standard length) 이하의개체들이대량출현하였으며, 특히 1월에 46,133 indi./

km2 개체가출현하였다. 3~9월에는 5 cm 이상의비교적

체들의출현량이증가하였다. 청어는 201010월에서 2011 1월에는 11-14 cm개체들이일부출현하다가, 3-7월까지 3-8 cm작은개체가출현하였으며, 4월에가장많은 56,933 indi./

km2집중출현하였고, 10월에가장적은개체가출현하였다. 청멸은 4.9-15.1 cm개체가 2010 10-3월까지출현하다가 4-6월에는전혀출현하지않았으며, 7월부터다시출현하였다. 11월에가장많은 11,500 indi./km2출현하였으며, 2월에 적은 33 indi./km2출현하였다. 멸치는 2010 10월에서 2011 1, 4-6, 8-9월에는 5-12 cm개체가출현하였는 2, 3, 7월에는출현하지않았다. 출현량은 6월에 8,967 indi./

km2가장많은출현량을보였고, 10월에가장적은 33 indi./

km2출현하였다.

Fig. 4. Monthly size distribution of four major species collected by small otter trawl in the coastal water off Gadeok-do.

Temperature (˚C)Salinity (psu)

0 5 10 15 20 25 30

Surface temperature(˚C) Bottom temperature(˚C)

0 5 10 15 20 25 30 35 40

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sep.

Surface salinity (psu) Bottom salinity (psu)

(2011) (2010)

(2011) (2010)

0.0 0.5 1.0 1.5 2.0 2.5

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May. Jun. Jul. Aug. Sep.

(C)

No. of individual (x 100)No. of speciesBiomass (kg)

0 5 10 15 20 25

(B)

Diversity index (H')

0 10 20 30

(A)

(D) 0 10 20 30 40 50

(C)

Oct, n = 636 (2010)

Nov, n = 417

Jan, n = 1384 (2011)

Feb, n = 16

Mar, n = 184

Apr, n = 28

May, n = 7

Jun, n = 4

Jul, n = 19

Aug, n = 5

Sep, n = 7

Standard length (cm)

50

1 5 3 9 15

Nov, n = 4 Nov, n=345

Jan, n = 3

Feb, n = 0

Mar, n = 10

Apr, n = 1408

May, n = 51

Jun, n = 120

Jul, n = 7

Aug, n = 0

Sep, n = 0

10 5 10 15

Oct, n = 266

Jan, n = 84

Feb, n = 1

Mar, n = 75

Apr, n = 0

May, n = 0

Jun, n = 0

Jul, n = 62

Aug, n = 15

Sep, n = 93

4 8 12

Nov, n = 2

Jan, n = 35

Feb, n = 0

Mar, n = 0

Apr, n = 67

May, n = 15

Jun, n = 219

Jul, n = 0

Aug, n = 2

Sep, n = 101 Oct, n = 1

Leiognathus nuchalis Clupea pallasii Thryssa kammalensis Engraulis japonicus

L.n C.p

T.k

E.j R.b

S.j T.j A.a

C.jO.k

P.f P.y

Z.g Stress: 0.09

Group. Ⅳ

Group. Ⅰ Group. Ⅲ

Group. Ⅱ

35˚04´N35˚02´N35˚00´N

128˚46´E Sampling Site

Gadeok-do

Korea

128˚50´E 128˚54´E

(5)

정재묵 박주면허성회예상진김현지백근욱 952

출현양상에 따른 어종의 구분

조사기간동은 5,000 indi./km2이상출현한 13종을대상으로 출현시기에대한중복도지수를구한, 다차원척도법(MDS) 실시한결과 4개의그룹으로나눌있었다( Fig. 5).

GroupⅠ

가을에서겨울에출현량이높은그룹으로주둥치와청멸이 하였다.

Group Ⅱ

봄에서여름에출현량이높은그룹으로청어와멸치가속하 였다.

Group Ⅲ

봄에출현량이높은그룹으로등가시치가속하였다. Group Ⅳ

연중출현한그룹으로실양태, 청보리멸, 전갱이, 보구치, , 참서대, 흰베도라치, 문치가자미가속하였다.

고 찰

An and Huh (2000)의하면가덕도주변해역과같은연안역

복잡하고다양한형태의서식공간이있으며, 이에적응해 식하는어류는다양한행동습성과생존전략을보여종류의 어구만을이용할경우, 해당해역의어류군집을대표하기어려 다양한어구를사용해야한다고하였다. 하지만, 저인망(bot-

tom otter trawl)예인되는구역내에있는소형어류를비롯한 모든해양생물을다른어구에비하여최대한채집있기 문에어류군집연구에적합한어구로알려져있으며(Sainsbury, 1996), 연구지역은수심이 20 m 미만으로비교적얕았고,

점종이대부분부어류(pelagic fish)확인되어저인망을이용

채집만으로연구지역의어류군집을어느정도대표할 다고판단되었다.

연중수온은표층과저층모두 1월에가장낮았고 8월에 높게측정되어, 전형적인온대해역의특징을보였다. 염분 연중비슷한수치를보이다가 6월부터낮아지기시작하여 8월에가장낮게측정되었는데, 이는여름철강우량증가와 근에위치한낙동강에서유입되는담수의증가때문인것으로 판단된다.

조사기간동안 65종의어류가채집되었는데, 국내의다른 해역에서동일한어구를이용하여수행된선행연구와비교해 보면, 아산만에서는 34(Lee, 1993), 전남 영광연안에서는 46(Hwang et al., 1998), 거문도주변해역에서는 40(Cha, 2010), 울진후포연안에서는 20(Lee, 2011)채집된것으 알려져, 조사해역은다른해역에비하여, 다양한어류상을 나타내었다. 하지만낙동강하구주변해역에서이루어진연구 (Lee et al., 2012)조사지역에서이루어졌던선행연구(An and Huh, 2000)에서는각각 92, 110종이채집되어다양한 어종이출현한것을확인할있었다. 이는풍부한영양염과 유기쇄설물의유입으로인한먹이연쇄작용으로다양한어류 들이낙동강하구역을비롯한가덕도주변해역을성육장, 산란 , 색이장소등으로이용하기때문인것으로판단되었다. 리고계절마다대마난류를따라일시적으로출현하는회유종 (migratary species)다양한종의출현에영향을미친것으로 생각되었다.

연구에서가장우점한종은주둥치였는데, 동일해역에서

수행된선행연구(An and huh, 2000)국내연안역이나만에

이루진 다른연구에서도 주둥치는 우점하는 것으로나타 났다(Lee, 1996; Cha and Park, 1997; Huh and Kwak, 1998;

Kwak and Huh, 2003; Lee et al., 2011; Lee et al., 2012). 그리 서해천수만에서수행된연구에서주둥치는인위적환경변 화에따라증가하는종으로알려진있다(Lee, 1996; Lee et al., 1997). 연구에서비교적많이채집된청어, 청멸, 멸치, 갱이는일반적으로부어류(pelagic fish)알려져있으나, 저인 망을이용한연구에서우점하였다. 이와같은부어류의 점은무리를이루어유영하는특성으로인한다량채집과얕은 연안역에서의수직이동(vertical migration) 때문인것으로 단되었다. 그리고저인망어구를이용한과거많은연구에서 부어류가채집된것을확인있었다(Thiel et al., 2003;

Selleslagh and Amara, 2008; Bosman et al., 2011; Xue et al., 2011; Wang et al., 2013). 다음으로실양태, 청보리멸, 보구 , 홍어, 참서대, 흰베도라치, 문치가자미, 등가시치순으로 Fig. 5. Multi-dimensional scaling (MDS) analiysis of fish species

collected by small otter trawl in the coastal water off Gadeok-do (A.a: Argyrosomus argentatus ,L.n: Leiognathus nuchalis, C.p:

Clupea pallasii, T.k: Thryssa kammalensis, E.j: Engraulis japoni- cus, R.b: Repomucenus balenciennei S.j: Sillago japonica, T.j: Tra- churus japonicus, O.k: Okamejei kenojei, C.j: Cynoglossus joyneri P.f: Pholis fangi , P.v: Pleuronectes yokohamae , Z.g: Zoarces gil- lii).

Temperature (˚C)Salinity (psu)

0 5 10 15 20 25 30

Surface temperature(˚C) Bottom temperature(˚C)

0 5 10 15 20 25 30 35 40

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sep.

Surface salinity (psu) Bottom salinity (psu)

(2011) (2010)

(2011) (2010)

0.0 0.5 1.0 1.5 2.0 2.5

Oct. Nov. Dec. Jan. Feb. Mar. Apr. May. Jun. Jul. Aug. Sep.

(C)

No. of individual (x 100)No. of speciesBiomass (kg)

0 5 10 15 20 25

(B)

Diversity index (H')

0 10 20 30

(A)

(D) 0 10 20 30 40 50

(C)

Oct, n = 636 (2010)

Nov, n = 417

Jan, n = 1384 (2011)

Feb, n = 16

Mar, n = 184

Apr, n = 28

May, n = 7

Jun, n = 4

Jul, n = 19

Aug, n = 5

Sep, n = 7

Standard length (cm)

50

1 5 3 9 15

Nov, n = 4 Nov, n=345

Jan, n = 3

Feb, n = 0

Mar, n = 10

Apr, n = 1408

May, n = 51

Jun, n = 120

Jul, n = 7

Aug, n = 0

Sep, n = 0

10 5 10 15

Oct, n = 266

Jan, n = 84

Feb, n = 1

Mar, n = 75

Apr, n = 0

May, n = 0

Jun, n = 0

Jul, n = 62

Aug, n = 15

Sep, n = 93

4 8 12

Nov, n = 2

Jan, n = 35

Feb, n = 0

Mar, n = 0

Apr, n = 67

May, n = 15

Jun, n = 219

Jul, n = 0

Aug, n = 2

Sep, n = 101 Oct, n = 1

Leiognathus nuchalis Clupea pallasii Thryssa kammalensis Engraulis japonicus

L.n C.p

T.k

E.j R.b

S.j T.j

A.a C.jO.k

P.f P.y

Z.g Stress: 0.09

Group. Ⅳ

Group. Ⅰ Group. Ⅲ

Group. Ⅱ

128˚46´E 128˚50´E 128˚54´E

수치

Fig. 2. Monthly variations of temperature and salinity in coastal waters off Gadeok-do, 2010-2011.
Fig. 3. Monthly variations of number of species (A), number of individuals (B), biomass (C) and diversity index (D) of fishes col-lected by small otter trawl in the coastal waters off Gadeok-do.
Fig. 4. Monthly size distribution of four major species collected by small otter trawl in the coastal water off Gadeok-do.
Table 1. Seasonal individuals, N (unit: indi./km 2 ) and catch weigth, W (unit: kg/km 2 ) in the coastal waters off Gadeok-do
+2

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