pH、N、P、N: P比和溶解无机碳对水藻生长和生物量质量的影响:IMTA-RAS的潜在意义

Q4 Environmental Science
A. Alamrousi, E. Casais, Érika García-Cardesín, Ingrid Masaló, J. Pintado, J. Cremades
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引用次数: 1

摘要

乌尔瓦在IMTA-RAS鱼-海藻系统中具有很大的潜力。为了设计这些系统的最佳生产策略,研究了pH、营养物浓度(N、P和N: P比)和溶解无机碳(DIC)等主要环境因子对生物量生产力、生物过滤能力和质量的影响。结果表明,在封闭系统中,强烈的pH变化(7.9-10.1)不会影响U. ohnoi的生长,并且由于DIC的耗尽而导致生长减慢。这一事实在IMTA-RAS鱼类-大型藻类系统中不会成为问题,因为鱼类的生理活动向培养基中贡献二氧化碳并补充它。在较宽的N: P比值范围内(2-410)得到的结果使我们得出结论,该比值不应成为在IMTA-RAS体系中培养乌尔瓦的限制因素。基于这些结果,种植IMTA-RAS鳎海莴苣的最佳策略是维持海藻的最高氮含量。这一程序意味着水的更新率很高,这也将保证维持适当的DIC和海藻的最佳商业质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of pH, N, P, N: P Ratio, and Dissolved Inorganic Carbon on Ulva ohnoi Growth and Biomass Quality: Potential Implications in IMTA-RAS
Ulva ohnoi has a big potential in IMTA-RAS fish–seaweed systems. In order to design the best production strategy in these systems, the effect of the main environmental factors, such as pH, nutrient concentration (N, P, and N: P ratios) and dissolved inorganic carbon (DIC), on the productivity, bio filtration capacity, and quality of the biomass obtained was studied. It is concluded that in closed systems, strong pH variations (7.9–10.1) do not influence the growth of U. ohnoi and growth is slowed down due to the depletion of DIC. This fact would not be a problem in IMTA-RAS fish–macroalgae systems, due to the physiological activity of the fish contributing CO2 to the medium and replenishing it. The results obtained in the wide range of N: P ratios tested (2–410), allow us to conclude that this ratio should not be a limiting factor for the cultivation of Ulva ohnoi in IMTA-RAS systems. Based on those results, the best strategy to follow in an IMTA-RAS sole–sea lettuce would be to maintain the algae with highest level of nitrogen. This procedure implies a high rate of water renewal, which would also guarantee the maintenance of an adequate DIC and the best commercial quality of seaweed.
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来源期刊
Indonesian Aquaculture Journal
Indonesian Aquaculture Journal Environmental Science-Water Science and Technology
CiteScore
0.50
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9
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