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Effects of depth-cycling on nutrient uptake and biomass production in the giant kelp Macrocystis pyrifera

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  • Navarrete, Ignacio A.
  • Kim, Diane Y.
  • Wilcox, Cindy
  • Reed, Daniel C.
  • Ginsburg, David W.
  • Dutton, Jessica M.
  • Heidelberg, John
  • Raut, Yubin
  • Wilcox, Brian Howard

Abstract

Seasonal or chronic nutrient limitations in the photic zone limit large-scale cultivation of seaweed (macroalgae) in much of the world's oceans, hindering the development of macroalgae as a biofuel feedstock. One possible solution is to supply nutrients using a diel depth-cycling approach, physically moving the macroalgae between deep nutrient-rich water at night and shallow depths within the photic zone during the day. This study tested the effects of depth-cycling on the growth, morphology, and chemical composition of the giant kelp Macrocystis pyrifera, a target species for renewable biomass production. Giant kelp grown under depth-cycling conditions had an average growth rate of 5% per day and produced four times more biomass (wet weight) than individuals grown in a kelp bed without depth-cycling. Analysis of tissue from the depth-cycled kelp showed elevated levels of protein, lower C:N ratios, and distinct δ15N and δ13C values suggesting that the depth-cycled kelp were not nitrogen-deficient and assimilated nutrients from deep water. Depth-cycled kelp also exhibited smaller and thicker-walled pneumatocysts and larger blades. Overall, this study supports further investigation of depth-cycling as a macroalgal farming strategy.

Suggested Citation

  • Navarrete, Ignacio A. & Kim, Diane Y. & Wilcox, Cindy & Reed, Daniel C. & Ginsburg, David W. & Dutton, Jessica M. & Heidelberg, John & Raut, Yubin & Wilcox, Brian Howard, 2021. "Effects of depth-cycling on nutrient uptake and biomass production in the giant kelp Macrocystis pyrifera," Renewable and Sustainable Energy Reviews, Elsevier, vol. 141(C).
    • Handle: RePEc:eee:rensus:v:141:y:2021:i:c:s1364032121000423
    DOI: 10.1016/j.rser.2021.110747
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    References listed on IDEAS

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    1. Song, Minkyung & Duc Pham, Hong & Seon, Jiyun & Chul Woo, Hee, 2015. "Marine brown algae: A conundrum answer for sustainable biofuels production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 50(C), pages 782-792.
    2. Rachael Wade & Simona Augyte & Maddelyn Harden & Sergey Nuzhdin & Charles Yarish & Filipe Alberto, 2020. "Macroalgal germplasm banking for conservation, food security, and industry," PLOS Biology, Public Library of Science, vol. 18(2), pages 1-10, February.
    3. Christopher H. Trisos & Cory Merow & Alex L. Pigot, 2020. "The projected timing of abrupt ecological disruption from climate change," Nature, Nature, vol. 580(7804), pages 496-501, April.
    4. Sudhakar, K. & Mamat, R. & Samykano, M. & Azmi, W.H. & Ishak, W.F.W. & Yusaf, Talal, 2018. "An overview of marine macroalgae as bioresource," Renewable and Sustainable Energy Reviews, Elsevier, vol. 91(C), pages 165-179.
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    1. Kouhgardi, Esmaeil & Zendehboudi, Sohrab & Mohammadzadeh, Omid & Lohi, Ali & Chatzis, Ioannis, 2023. "Current status and future prospects of biofuel production from brown algae in North America: Progress and challenges," Renewable and Sustainable Energy Reviews, Elsevier, vol. 172(C).

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