氮饥饿细基江蓠繁枝变型和孔石莼氨氮的吸收动力学特征

刘静雯; 董双林

氮饥饿细基江蓠繁枝变型和孔石莼氨氮的吸收动力学特征

刘静雯¹,
董双林²

1.
中国海洋大学教育部水产养殖重点实验室, 山东, 青岛, 266003;集美大学, 生物工程学院, 福建, 厦门, 361021
2.
中国海洋大学教育部水产养殖重点实验室, 山东, 青岛, 266003

基金项目: 国家重点基础研究发展规划资助项目(G1999012011);福建省青年科技人才创新资助项目(2001J049)

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出版历程
- 收稿日期: 2003-01-13
- 修回日期: 2003-06-16

Nature of NH₄⁺ uptake kinetics of Gracilaria tenuistipitata var. liui and Ulva pertusa.

LIU Jing-wen¹,
DONG Shuang-lin²

1.
Aquaculture Research Laboratory of Chinese Ocean University, Qingdao 266003, China;College of Biological Engineering, Jimei University, Xiamen 361021, China
2.
Aquaculture Research Laboratory of Chinese Ocean University, Qingdao 266003, China

摘要

摘要: 以氮饥饿海藻为材料,采用多瓶法和干扰法相结合的技术,测定两种海藻在不同起始浓度下不同时间间隔内的NH₄⁺吸收率,对不同阶段的吸收率进行非线性回归分析,结果表明它们均符合饱和吸收动力学特征.最大吸收率和半饱和常数均随着吸收时间的延长而降低.在整个吸收过程中,吸收曲线的初始斜率变化不大,这表明在低浓度下的吸收率不受短时间快吸收的影响而保持相对的稳定.同时两种海藻相比,在相应时间内的吸收动力学参数不同,孔石莼的最大吸收率、半饱和常数和初始斜率均大于细基江蓠繁枝变型.处于氮饥饿状态的两种海藻对NH₄⁺-N的吸收存在以下3个时相:(1)起始短期的快吸收阶段;(2)内部营养盐浓度控制的吸收阶段;(3)外界营养盐浓度控制的吸收阶段.
- 氨氮吸收动力学 /
- 多瓶法和干扰技术 /
- 细基江蓠繁枝变型 /
- 孔石莼
Abstract: Nonlinear time courses of NH₄⁺ depletion from the mediumimply that the rate limiting step for ammonium uptake changes over time.NH₄⁺ uptake by the starved macroalgae Gracilaria tenuistipitata var.liui and Ulva pertusa were studied from the depletion of NH₄⁺ after single additions of NH₄⁺ to cultures.The experiments were carried out by the combination of two different experimental setups——the "multiple flask" and the "perturbation" technologies.Uptake rate was nonlinear with time and decreased in V_m as incubation time increased (i.e., V_max^0~15, V_max^15~30, V_max^30~60, V_max^90~120 and V_max^120~240).The corresponding maximum uptake rates, the half saturation constants and the V_max/K_s (a) ratios (the affinity for ammonium uptake at low substrate concentrations) in U.pertusa were all higher than those of in G.tenuistipitata.Three distinct succeeding phases of NH₄⁺ uptake were identified: (1) Surge uptake phase, (2) internally controlled uptake phase, and (3) externally controlled uptake phase.The nature of NH₄⁺ uptake rate of decline is species specific and may be due to feedback inhibition from the filling of an internal pool.
- NH₄⁺-N uptake kinetics /
- “multiple flask” and the “perturbation” technologies /
- G.tenuistip itata var. liui /
- U. pertusa

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参考文献(16)

吴汪黔生,高洪峰,丁美丽,等.合浦珠母贝代谢产物对异枝麒麟菜生长的促进作用[J].海洋与湖沼,1997,28(5):453-457.

TROELL M, HALLING C, NILSSON A, et al. Integrated marine cultivation of Gracilaria chilensis (Gracilariales.Rhodophyta) and salmon cages for reduced environmental impact and increased economic output[J]. Aquaculture, 1997,156: 45-61.

NEORI A, KROM M D, ELLNER S P, et al. Seaweed biofilters as regulators of water quality in intergrated fish-seeweed culture units[J]. Aquaculture, 1996, 141: 183-199.

JONES A B, DENHISON W C, STEWART G R. Macroalgal responses to N source and availablity: amino acid metabolic profiling as a bioindicator using Gracilarea edulis[J]. J Phycol, 1996, 32: 757-766.

MCGLATHERY K J. Changes in intracellular nitrogen pools and feedback controls on nitrogen uptake in Chaetomorpha linum[J]. J Phycol, 1996, 31: 393-401.

PEDERSEN M F. Transient ammonium uptake in the macroalga Ulva lactuca (Chlorophyta): nature, regulation, and the consequences for choice of measuring technique[J]. J Phycol, 1994, 30: 980-986.

ROSENBERG G, PROBYN T A, MANN K H. Nutrient uptake and growth kinetics in brown seaweeds: response to continuous and single additions of ammonium[J]. J Exp Mar Biol Ecol, 1984, 80: 125-146.

FUJITA R M. The role of N status in regulating transient ammonium uptake and N storage by macroalgae[J]. J Exp Mar Ecol, 1985, 92: 283-301.

THOMAS T E, HARRISON P J, TAYLOR E B. Nitrogen uptake and growth of the germlings and mature thalli of Fucus distichus[J]. Mar Biol, 1985, 84: 267-274.

LIU J W, DONG S L. Comparative studies on utilizing nitrogen capacity between two macroalgae Gracilaria tenuistipitata(Rhodophyta) and Ulva pertusa (Chlorophyta). I. Nitrogen storage under nitrogen enrichment and starvation[J]. J Environment Sci, 2001, 3(13): 328-322.

刘静雯,董双林,马甡.温度和盐度对几种大型海藻生长率和NH₄⁺吸收的影响[J].海洋学报,2001,23(2):109-116.

HARRISON P J, PARSLOW J S, CONWAY H L, et al. Determination of nutrient uptake kinetic parameters: a comparison of methods[J]. Mar Ecol Prog Set, 1989, 52: 301-312.

LIU J W, DONG S L. Comparative studies on utilizing nitrogen capacity between two macroalgae Gracilaria tenuistipitata(Rhodophyta) and Ulva pertusa (Chlorophyta). Ⅱ. Feedback control of intracellular nitrogen pools on nitrogen uptake[J]. J Environment Sci, 2001, 3(13): 323-327.

D'ELIA C F, DEBOER J A. Nutritional studies of two red algae. Ⅱ. Kinetics of ammonium and nitrate uptake[J]. J Phycol, 1978, 14: 266-272.

O'BRIEN M C, WHEELER P A. Short term uptake of nutrient by Enteromorpha prolifera[J]. J Phycol, 1987, 23:547-556.

PEDERSON M F, PALING E I, WALKER D I, et al. Nitrogen uptake and allocation in the seagrass Amphibolis antarctica[J]. Aquatic Bot, 1997, 56: 105-117.

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