Seasonal variability in plankton food web structure and trophodynamics in the neritic area of Sagami Bay, Japan

• Published in: Journal of oceanography Vol. 65; no. 6; pp. 757 - 779
• Main Authors: Ara, Koichi, Hiromi, Juro
• Format: Journal Article
• Language: English
• Published: Dordrecht Dordrecht : Springer Netherlands 01.12.2009; Springer Netherlands; Springer Nature B.V
• Subjects: Autumn; Biomass; Brackish; carbon flow; Copepoda; Earth and Environmental Science; Earth Sciences; Food; Freshwater & Marine Ecology; Marine; Nutritional requirements; Oceanography; Original Articles; Phytoplankton; Plankton; Plankton food web structure; Primary production; Sagami Bay, Japan; Seasonal variations; Seasons; Spring; Summer; transfer efficiency; trophodynamics; Winter; Japan; INW, Japan, Honshu, Kanagawa Prefect., Sagami Bay; Plankton food web structure; Sagami Bay, Japan; carbon flow; transfer efficiency; trophodynamics
• ISSN: 0916-8370; 1573-868X
• DOI: 10.1007/s10872-009-0064-2

The plankton food web structure and trophodynamics in the neritic area of Sagami Bay were investigated from January 2003 to December 2005, based on abundance, biomass, production rate and nutritional requirements of pico- (0.2-2 µm), nano- (2-20 µm), micro- (20-200 µm) and mesoplankton (>200 µm: mainly copepods CI-CVI) at 0-10 m depth. The average carbon biomass of the total plankton community was higher in spring and summer (1.452 and 1.466 g C m⁻², respectively) than in winter and autumn (0.676 and 0.686 g C m⁻², respectively). The average values of primary production and of production rate and food requirement of heterotrophic organisms were higher in summer than in other seasons. During the study period the biomass, production rate and food requirement of small heterotrophs (i.e. bacteria: BA; heterotrophic nanoflagellates: HNF; microzooplankton: MZ) were much higher than those of copepod secondary (CSP) and tertiary producers (CTP), indicating that the microbial food web was the main route of carbon flow from phytoplankton (PP) to CSP and CTP, rather than the grazing food chain. In particular, during summer and autumn the biomass of pico- and nano-size PP plus BA was greater than that of micro-size PP, suggesting the high prevalence of the microbial food web (pico-/nanophytoplankton/BA-HNF/MZ-copepods). During winter and spring, the biomass of micro-size PP was greater than that of pico- and nano-size PP plus BA, suggesting that the indirect route (microphytoplankton-MZ-copepods) probably prevailed, while the microbial food web might be important.