최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Ocean and polar research, v.31 no.3, 2009년, pp.265 - 276
Acartia hongi is the most dominant and widespread planktonic copepod in Gyeonggi Bay, Yellow sea. Ingestion rates and selectivity of A. hongi on phytoplankton and planktonic ciliates were determined in the laboratory. Ingestion rates of A. hongi on planktonic ciliates and phytoplankton increased in ...
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
핵심어 | 질문 | 논문에서 추출한 답변 |
---|---|---|
수서 생태계에서 미세생물 먹이망은 어떤 역할을 하는가? | 수서 생태계에서 미세생물 먹이망은 유기물을 생산하고 상위단계 소비자에게 이용되는 에너지 전달자로서 중요한 역할을 한다(Sherr et al. 1986; Stoecker and Capuzzo 1990). | |
요각류의 알생산력 및 섭식률은 어떤 요인에 따라 크게 변화하는가? | 2007). 요각류의 알생산력 및 섭식률은 먹이 농도, 먹이 크기 및 먹이 성분에 따라 크게 변화한다(Frost 1972; Durbin et al. 1983; Berggreen et al. | |
생태계에서 에너지 전달자로서 종속영양 원생생물의 역할은 일차 생산력과 요각류 생산력 사이에 에너지 흐름의 불균형을 설명하는데 크게 기여하고 있는 이유는 무엇인가? | 수서 생태계에서 미세생물 먹이망은 유기물을 생산하고 상위단계 소비자에게 이용되는 에너지 전달자로서 중요한 역할을 한다(Sherr et al. 1986; Stoecker and Capuzzo 1990). 특히 미세생물 먹이망에서 종속영양 원생생물은 극미소 또는 소형 식물플랑크톤(예, 체인형 규조류)을 효과적으로 섭식할 수 없는 중형 동물플랑크톤과 난자치어의 중요한 먹이로서 제공된다(Stoecker and Sanders 1985; Stoecker and Egloff 1987; Vincent and Hartmann 2001; Castellani et al. 2008). |
양은진 (2001) 인천연안 미소형 및 소형 동물플랑크톤의 생태학적 연구. 이학박사 학위논문, 인하대학교, 286 p
Atkinson A (1995) Omnivory and feeding selectivity in five copepod species during spring in the Bellingshausen Sea, Antarctica. ICES J Mar Sci 52:385-396
Ayukai T (1987) Predation by Acartia clausi (Copepoda, Calanoida) on two species of tintinnids. Mar Microb Food Webs 2:45-52
Berk SG, Brownlee DC, Heinle DR, Kling HJ, Colwell RR (1977) Ciliates as a food source for marine planktonic copepods. Mircob Ecol 4:27-40
Berggreen U, Hansen B, Kiørboe T (1988) Food size spectra, ingestion and growth of the copepodAcartia tonsa during development: Implication for determination of copepod production. Mar Biol 99:341-352
Bonnet D, Carlotti F (2001) Development and egg production in Centropages typicus (Copepoda: Calanoida) fed different food types: a laboratory study. Mar Ecol Prog Ser 224:133-148
Broglio E, Saize E, Calbet A, Trepat I, Alcaraz M (2004) Trophic impact and prey selection by crustacean zooplankton on the microbial communites of an oligotrophic coastal area(NW Mediterranean). Aquat Microb Ecol 35:65-78
Calbet A, Saiz E (2005) The ciliate-copepod link in marine ecosystem. Aquat Microb Ecol 38:157-167
Calbet A, Landry MR (1999) Mesozooplankton influences on the microbial food web: direct and indirect trophic interactions in the oligotrophic open ocean. Limnol Oceanogr 44:1370-1380
Calbet A, Broglio E, Saiz E, Alcaraz M (2002) Low grazing impact of mesozooplankton on the microbial communities of the Alboran Sea: a possible case of inhibitory effects by the toxic dinoflagellates Gymnodinium catenatum. Aquat Microb Ecol 26:235-246
Castellani C, Irigoien X, Mayor DJ, Harris RP, Wilson D (2008) Feeding of Calanus finmarchicus and Oithona similison the microplankton assemblage in the Irminger Sea, North Atlantic. J Plank Res 30:1095-1116
Deason EE (1980) Grazing on Acartia hudsonica(A.clausi) on Skeletonema costatum in Narragansett Bay (USA): Influence of food concentration and temperature. Mar Biol 60:101-113
Dolan JR (1991) Microphagous ciliates in mesohaline Chesapeake Bay waters: estimates of growth rates and consumption by copepods. Mar Biol 111:303-309
Durbin E, Smayda TJ, Verity TG (1983) Food limitation of production by adult Acartia tonsa in Narragansett Bay, Rhode Island. Limnol Oceanogr 28:1199-1213
Edler L (1979) Phytoplankton and chlorophyll recommendations for biological studies in the Baltic Sea. In: Recommendations on methods for marine biological studies in the Baltic Sea: phytoplankton and chlorophyll. Baltic Marine Biologists, no 5, pp 13-25
Fessenden L, Cowles TJ (1994) Copepod predation on phagotrophic ciliate in Oregon coastal waters. Mar Ecol Prog Ser 107:103-111
Fileman E, Smith T, Harris R (2007) Grazing by Calanus helgolandicus and Para-Pusedocalanus spp. on phytoplankton and protozooplankton during spring bloom in the Celtic Sea. J Exp Mar Biol Ecol 348:70-84
Froneman PW, Pakhomov EA, Perissinotto R, McQuaid CD (1996) Role of microplankton in the diet and daily ration of Antarctic zooplankton species during austral summer. Mar Ecol Prog Ser 143:15-23
Frost BW (1972) Effects of size and concentration of food particles on feeding behavior of the marine planktonic copepod Calanus pacificus. Limnol Oceanogr 17:805- 815
Gaudy R, Pagon M, Cervetto G, SaintJean L, Berropoulos G, Beker B (1996) Short term variations in feeding and metabolism of Acartia tonsa (Pelagic copepod) in the Berre lagoon(france). Oceanol Acta 19:635-644
Gifford DJ, Dagg MJ (1988) Feeding of the estuarine copepod Acartia tonsa Dana: carnivory vs. herbivory in natural microplankton assemblages. Bull Mar Sci 43:458-468
Goldman JC, Caron DA (1985) Experimental studies on an omnivorous microflagellates: implications for grazing and nutrient regeneration in the marine microbial food chain. Deep-Sea Res 32:899-915
Guillard RRL (1972) Culture of phytoplankton for feeding marine invertebrates. In: Smith WL, Chanley MH (eds) Culture of marine invertebrate animals. Plenum Press, New York, pp 29-60
Halvorsen E, Hirst AG, Batten SD, Tande KS, Lampitt RS (2001) Diet and community grazing by copepods in an upwelled filament off the NW coast of Spain. Prog Oceanogr 51:399-421
Heinle DR, Harris RP, Ustach JF, Flemer DA (1977) Detritus as food for estuarine copepods. Mar Biol 40:341-353
Huntley M (1981) Nonselective, nonsaturated feeding by three copepod species in the Labrador Sea. Limnol Oceanogr 26:831-842
Ismar SMH, Hanse T, Sommer U (2008) Effect of food concentration and type of diet on Acartia survival and naupliar development. Mar Biol 154:335-343
Ivlev VS (1961) Experimental ecology of the feeding of fishes. Yale University Press, New Haven, 302 p
Jones RH, Flynn KJ (2005) Nutritional status and diet composition affect the value of diatoms as copepod prey. Science 307:1457-1459
Jonsson PR, Tiselius P (1990) Feeding behavior, prey detection and capture efficiency of the copepod Acartia tonsa feeding on planktonic ciliates. Mar Ecol Prog Ser 60:35-44
Klein Breteler WCM (1980) Continuous breeding of marine pelagic copepods in the presence of heterotrophic dinoflagellates. Mar Ecol Prog Ser 2:229-233
Kleppel GS, Holliday DV, Pieper RE (1991) Trophic interactions between copepods and microplankton: a question about the role of diatoms. Limnol Oceanogr 36:172-178
Kiørboe T, Visser AW (1999) Predator and prey perception in copepods due to hydromechanical signals. Mar Ecol Prog Ser 179:81-95
Kiørboe T, Saiz E, Viitasalo M (1996) Prey switching behaviour in the planktonic copepod Acartia tonsa. Mar Ecol Prog Ser 143:65-75
Li J, Sun S, Li C, Zhang Z, Pu X (2008) Effects of different diets on the reproduction and naupliar development of the copepod Acartia bifilosa. J Exp Mar Biol Ecol 355:95-102
Liu H, Dagg MJ, Strom S (2005) Grazing by the calanoid copepod Neocalanus cristatus on the microbial food web in the coastal Gulf of Alaska. J Plank Res 27:647-662
Lonsdale DJ, Cosper EM, Kim WS, Doall M, Divadeenam A, Jonasdottir SH (1996) Food web interactions in the plankton of Long Island bays, with preliminary observations on brown tide effects. Mar Ecol Prog Ser 134:247-263
Menden-Deuer S, Lessard EJ (2000). Carbon to volume relationships for dinoflagellates, diatoms and other protist plankton. Limnol Oceanogr 45:569-579
Perez MT, Dolan JR, Fukai E (1997) Planktonic oligotrich ciliates in the NW Mediterranean: growth rates and consumption by copepods. Mar Ecol Prog Ser 155:89- 101
Putt M, Stoecker DK (1989) An experimentally determined carbon: volume ratio for marine “oligotrichous” ciliates from estuarine and coastal waters. Limnol Oceanogr 34:1097-1103
Robertson JR (1983) Predation by estuarine zooplankton on tintinnid ciliates. Estuar Coast Shelf Sci 16:27-36
Rollwagen Bollens GC, Penry DL (2003) Feeding dynamics of Acartia spp. copepods in a large, temperature estuary (San Francisco Bay, CA). Mar Ecol Prog Ser 257:139- 158
Saiz E, Calbet A, Irigoien X, Alcaraz M (1999) Copepod egg production in the western Mediterranean: response to food availability in oligotrophic environments. Mar Ecol Prog Ser 187:179-189
Saiz E, Kiørboe T (1995) Predatory and suspension feeding of the copepod Acartia tonsa in turbulent environments. Mar Ecol Prog Ser 122:147-158
Seo JH, Choi JK (2008) In situ grazing pressure of Acartia hongi female (Copepoda: Calanoida) on phytoplankton in Gyeonggi Bay, Korea. J Inter Soc Yellow Sea Res 9:32-39
Sherr EB, Sherr BF, Paffenhofer GA (1986) Phagotrophic protozoa as food for metazoans: a 'missing' trophic link in marine pelagic food webs? Marine Microb Food Webs 1:61-80
Stoecker DK, Egloff DE (1987) Predation by Acartia tonsa Dana on planktonic ciliates and rotifers. J Exp Mar Biol Ecol 110:53-68
Stoecker DK, Capuzzo JM (1990) Predation on protozoa: its importance to zooplankton. J Plank Res 12:891-908
Stoecker DK, Sanders NK (1985) Differential grazing by Acartia tonsa on a dinoflagellate and a tintinnid. J Plank Res 7:85-100
Vargas CA, Martinez RA, Gonzalez HF, Silva N (2008) Contrasting trophic interactions of microbial and copepod communities in a fjord ecosystem, Chilean Patagonia. Aquat Microb Ecol 53:227-242
Verity PG, Langdon C (1984) Relationships between lorica volume, carbon, nitrogen and ATP content of tintinnids in Narragansett Bay. J Plank Res 6:859-868
Vincent D, Hartmann HJ (2001) Contribution of ciliated microprotozoans and dinoflagellates to the diet of three copepod species in the Bay of Biscay. Hydrobiologia 443:193-204
White JR, Roman MR (1992) Egg production by the calanoid copepod Acartia tonsa in the mesohaline Chesapeake Bay; the importance of food resources and temperature. Mar Ecol Prog Ser 86:239-249
Yang EJ, Choi JK, Hyun JH (2008) Seasonal variation in the community and size structure of nano-and microzooplankton in Gyeonggi Bay, Yellow Sea. Estuar Coast Shelf Sci 77:320-330
Yang EJ, Kang HG, Yoo S, Hyun JH (2009) Contribution of auto- and heterotrophic protozoa to the diet of copepods in the Ulleung Basin, East Sea/Japan Sea. J Plank Res 31:647-659
Youn SH, Choi JK (2003) Seasonal change in zooplankton community in the coastal waters off Incheon. J Kor Soci Oceanogr 38:111-121
Youn SH (2004) Spatial and temporal distribution of zooplankton community and production of copepod Acartia hongi in Kyeonggi Bay, Korea. Ph.D. Thesis, Inha University, 308 p
Youn SH, Choi JK (2007) Egg production of the copepod Acartia hongi in Kyeonggi Bay, Korea. J Mar Sys 67:217-224
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
출판사/학술단체 등이 한시적으로 특별한 프로모션 또는 일정기간 경과 후 접근을 허용하여, 출판사/학술단체 등의 사이트에서 이용 가능한 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.