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Macroalgal farming in the sea: water motion and nitrate uptake (1992)

Neushul, M. ; Benson, J. ; Harger, B. W. W. ; [et al.]

Springer

Journal of applied phycology 4 (1992), S. 255-265

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ISSN: 1573-5176

Keywords: Kelp farming ; hydrodynamics ; flow ; nutrient-uptake

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A better understanding of water motion effects on nutrient uptake by marine crop plants should make it possible to farm the sea more effectively. Farms in China, Japan and the Philippines now grow plants on slack lines or nets that move with passing waves and currents. Nutrient uptake rates are increased onLaminaria farms in China by adding nitrogen-containing fertilizer. In contrast, forests of the giant kelp,Macrocystis grow in California at low nutrient levels without fertilization. The giant kelp, compared as a structure with the slack Chinese farms, has float-supported, spring-like stipes that stretch and recoil as waves pass. This motion seems likely to enhance flow over the thallus surface. In thus study we modified flow around kelp blades in a water tunnel in the laboratory by changing orifice plates, and flow around Chinese-style long-line farms in the sea by tightening them under various sea conditions. Our measurements suggest that if marine farms were designed and operated to increase water movement over the plants being grown, their rates of nutrient uptake, and growth would increase.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02161211

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Gelidium cultivation in the sea (1991)

Melo, R. A. ; Harger, B. W. W. ; Neushul, M.

Springer

Hydrobiologia 221 (1991), S. 91-106

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ISSN: 1573-5117

Keywords: agarophyte ; cultivation ; Gelidium ; growth ; hydrodynamics ; mariculture

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Gelidium fronds were grown in the sea under a variety of experimental conditions: on rigid, damped and tensioned test farms of various designs, in calmer and more turbulent habitats, at various depths, with and without commercial fertilizer supply. Initially, the effectiveness of a given cultivation strategy was based on the survival and growth of the fronds, here termed ‘bio-assay’ mariculture. Ambient seawater temperature, nutrient availability, hydrodynamics and other environmental parameters were measured periodically. In-the-sea irrigation of test plants with commercial fertilizers was apparently effective, at least with some farm designs, and when ambient nutrient levels were low. Under optimal conditions, achieved through experimental manipulation of farm design, specific growth rates of over 2% per day were recorded. However, considerable variation in growth rates and in plant performances was observed. It was not always possible to correlate these variations with design modifications or other experimental parameters. In view of these findings, we have reviewed our initial ‘bio-assay’ approach, namely the assumptions about the design and operation of farm structures and their interactions with the water and the fronds. Methods were developed to quantify these interactions. We advocate a quantitative, ‘hydrodynamic’ approach in developing an effective cultivation strategy for gelidioid algae and are optimistic about progressing from test-to-commercial scale farms in the near future.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00028366

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