Feasibility of farming the agarose-yielding red alga <i>Gracilaria dura</i> using tube-net cultivation in the open sea along the Gujarat coast of NW India

Mantri, Vaibhav A.; Shah, Yashesh; Thiruppathi, S.

doi:10.1080/26388081.2019.1648181

Cited by 30 publications

(13 citation statements)

References 21 publications

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“…Due to the high demand and profitability of eucheumatoids and Gracilaria, new techniques in seaweed farming have been used to increase the quality and productivity of the seaweed farms, including the use of floating cages in open-sea farming over the conventional longline method to protect seaweeds from grazing predators such as fish and turtles (Kasim and Mustafa 2017). Another novel technique for seaweed cultivation is tube-net cultivation, which was used for Gracilaria dura in open-sea farming along the Gujarat Coast of North West India (Mantri et al 2020). This method has several advantages, including being less affected by the propelling waves, taking less time to seed, protecting seedlings from drifting, and allowing the depth of planting to be adjusted based on location and season (Mantri et al 2017a).…”

Section: Recent Advances In Seaweed Cultivation Techniquesmentioning

confidence: 99%

“…This method has several advantages, including being less affected by the propelling waves, taking less time to seed, protecting seedlings from drifting, and allowing the depth of planting to be adjusted based on location and season (Mantri et al 2017a). The economic projections for gross revenue from four harvests per year using this method are US$5,577, while the investment required for the tube-net and related infrastructure is US$1,797, resulting in an estimated profit of US$3,780, or US$11.81 per farmer per day (Mantri et al 2020).…”

Section: Recent Advances In Seaweed Cultivation Techniquesmentioning

confidence: 99%

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Recent advances in seaweed seedling production: a review of eucheumatoids and other valuable seaweeds

Jiksing¹,

Ongkudon²,

Thien³

et al. 2022

Algae

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Modern seaweed farming relies heavily on seedlings from natural beds or vegetative cuttings from previous harvests. However, this farming method has some disadvantages, such as physiological variation in the seed stock and decreased genetic variability, which reduces the growth rate, carrageenan yield, and gel strength of the seaweeds. A new method of seedling production that is sustainable, scalable, and produces a large number of high-quality plantlets is needed to support the seaweed farming industry. Recent use of tissue culture and micropropagation techniques in eucheumatoid seaweed production has yielded promising results in increasing seed supply and growing uniform seedlings in large numbers in a shorter time. Several seaweed species have been successfully cultured and regenerated into new plantlets in laboratories using direct regeneration, callus culture, and protoplast culture. The use of biostimulants and plant growth regulators in culture media increases the seedling quality even further. Seedlings produced by micropropagation grew faster and had better biochemical properties than conventionally cultivated seedlings. Before being transferred to a land-based grow-out system or ocean nets for farming, tissue-cultured seedlings were recommended to undergo an acclimatization process to increase their survival rate. Regular monitoring is needed to prevent disease and pest infestations and grazing by herbivorous fish and turtles during the farming process. The current review discusses recent techniques for producing eucheumatoid and other valuable seaweed farming materials, emphasizing the efficiency of micropropagation and the transition from laboratory culture to cultivation in land-based or open-sea grow-out systems to elucidate optimal conditions for sustainable seaweed production.

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Section: Recent Advances In Seaweed Cultivation Techniquesmentioning

confidence: 99%

Section: Recent Advances In Seaweed Cultivation Techniquesmentioning

confidence: 99%

Recent advances in seaweed seedling production: a review of eucheumatoids and other valuable seaweeds

Jiksing¹,

Ongkudon²,

Thien³

et al. 2022

Algae

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“…Public support (including financial incentives) is also needed to support the development and commercialization of innovations that tend to have significant technical, economic, environmental and/or social benefits. Examples of such innovations include, among others, (i) tube-net technique suitable for growing warm-water red seaweeds in areas with strong currents (Mantri, Shah and Thiruppathi, 2020); (ii) land-based tank culture systems that provide better-controlled environment conditions to optimize the quality, safety and traceability of seaweed products (Gadberry et al, 2019); (iii) species diversification and crop rotation that tend to help reduce the risk of disease, deter grazing by herbivores and improve crop yield (Grebe et al, 2019); (iv) technologies to prevent the contamination of non-target species in large-scale open systems of microalgae cultivation; (v) technologies that reduce the high cost of harvesting microalgae in large-scale cultivation, which has been a major constraint deterring investments in large-scale microalgae cultivation; (vi) resourceefficient biorefinery technologies that convert algae biomass into different products (Lange et al, 2020); (vii) product improvement, such as the removal of undesirable tastes, better texture, more appealing appearance and longer shelf-life; and (viii) integration of seaweeds in local cuisine and innovative recipes.…”

Section: Innovation As Game Changermentioning

confidence: 99%

Seaweeds and microalgae: an overview for unlocking their potential in global aquaculture development

2021

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The designations employed and the presentation of material in this information product do not imply the expression of any opinion whatsoever on the part of the Food and Agriculture Organization of the United Nations (FAO) concerning the legal or development status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The mention of specific companies or products of manufacturers, whether or not these have been patented, does not imply that these have been endorsed or recommended by FAO in preference to others of a similar nature that are not mentioned.The views expressed in this information product are those of the author(s) and do not necessarily reflect the views or policies of FAO.

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“…Seaweeds are the most efficient primary producers on the planet (Creed et al, 2019). In coastal waters, they often sustain the food web (Kang et al, 2008;Cordone et al, 2018;Momo et al, 2020), structure the community (Arkema et al, 2009;Momo et al, 2020) and are of commercial interest for mankind (Bustamante and Castilla, 1990;Guillemin et al, 2008;Lawton et al, 2013;Veeragurunathan et al, 2015;Mantri et al, 2020). Some algal species turned invasive, disrupting the functioning and balance of native communities (Staehr et al, 2000;Yamasaki et al, 2014;Davoult et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

An Individual-Based Model of the Red Alga Agarophyton chilense Unravels the Complex Demography of Its Intertidal Stands

et al. 2022

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Algal demographic models have been developed mainly to study their life cycle evolution or optimize their commercial exploitation. Most commonly, structured-aggregated population models simulate the main life cycle stages considering their fertility, growth and survival. Their coarse resolution results in weak predictive abilities since neglected details may still impact the whole. In our case, we need a model of Agarophyton chilense natural intertidal populations that unravels the complex demography of isomorphic biphasic life cycles and be further used for: (i) introduction of genetics, aimed at studying the evolutionary stability of life cycles, (ii) optimizing commercial exploitation, and (iii) adaptation for other species. Long-term monitoring yield 6,066 individual observations and 40 population observations. For a holistic perspective, we developed an Individual-Based Model (IBM) considering ploidy stage, sex stage, holdfast age and survival, frond size, growth and breakage, fecundity, spore survival, stand biomass, location and season. The IBM was calibrated and validated comparing observed and estimated sizes and abundances of gametophyte males, gametophyte females and tetrasporophytes, stand biomass, haploid:dipoid ratio (known as H:D or G:T), fecundity and recruitment. The IBM replicated well the respective individual and population properties, and processes such as winter competition for light, self-thinning, summer stress from desiccation, frond breakage and re-growth, and different niche occupation by haploids and diploids. Its success depended on simulating with precision details such as the holdfasts’ dynamics. Because “details” often occur for a reduced number of individuals, inferring about them required going beyond statistically significant evidences and integrating these with parameter calibration aimed at maximized model fit. On average, the population was haploid-dominated (H:D > 1). In locations stressed by desiccation, the population was slightly biased toward the diploids and younger individuals due to the superior germination and survival of the diploid sporelings. In permanently submerged rock pools the population was biased toward the haploids and older individuals due to the superior growth and survival of the haploid adults. The IBM application demonstrated that conditional differentiation among ploidy stages was responsible for their differential niche occupation, which, in its turn, has been argued as the driver of the evolutionary stability of isomorphic biphasic life cycles.

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Feasibility of farming the agarose-yielding red alga Gracilaria dura using tube-net cultivation in the open sea along the Gujarat coast of NW India

Cited by 30 publications

References 21 publications

Recent advances in seaweed seedling production: a review of eucheumatoids and other valuable seaweeds

Recent advances in seaweed seedling production: a review of eucheumatoids and other valuable seaweeds

Seaweeds and microalgae: an overview for unlocking their potential in global aquaculture development

An Individual-Based Model of the Red Alga Agarophyton chilense Unravels the Complex Demography of Its Intertidal Stands

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