Journal of Plankton Research

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JOURNAL OF PLANKTON RESEARCH | VOLUME 7 | NUMBER 4 | PAGES 553-568 | 1985
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Elemental and isotopic fractionation of carbon and nitrogen by marine, planktonic copepods and implications to the marine nitrogen cycle

David M. Checkley, Jr. and L. C. Entzeroth¹

University of Texas Marine Science Institute Port Aransas, TX 78373, USA ¹ Conoco Inc., P.O. Box 1267, Ponca City, OK 74601, USA

Received on October 1, 1984; accepted on April 1, 1985 Particle-grazing copepods, primarily Temora longicornis and T. stylifera, and seawater with natural particles were collected from the northwest Gulf of Mexico. Control and ammonium-enriched aliquots of seawater were incubated in triplicate for 2 days, copepods added and the incubation continued for 2 days. Analyses were made of dissolved nutrients (nitrate, ammonium and phosphate), suspended particles (chlorophyll a and phaeopigments, C, N, ¹³C, ¹⁵N), and copepod bodies and feces (C, N, ¹³C, ¹⁵N) and the rates of egg and feces production were estimated. Primary production chlorophyll a, C, N) was enhanced by N enrichment, indicating its initial N limitation. The rates of egg and feces production were greatest for copepods in N-enriched seawater, indicating food-limited ingestion and egg production. Elemental (C:N) and isotopic (¹³C, ¹⁵N) fractionation by copepods occurred following ingestion of suspended particulate matter (spm) and during the production of tissue (b) and feces (f): C:N_f>C:N_spm >C:N_b, ¹³C_b>¹³C_f>¹³C_spm, and ¹⁵N_f>¹⁵N_b>¹⁵N_spm. In a second experiment, N-enriched and N-deficient phytoplankton were fed to Acartia tonsa and again C:N_f>C:N_spm>C:N_b. These data indicate that copepods in the present study (i) used nitrogen more efficiently than carbon for tissue production and (ii) produced tissue and feces enriched and excreta depleted in ¹³C and ¹⁵N relative to the suspended particulate matter. The implications of these results to the marine nitrogen cycle are discussed.

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