Repopulation techniques for Macrocystis integrifolia (Phaeophyceae: Laminariales) in Atacama, Chile

The giant kelp Macrocystis (integrifolia) has been intensely harvested in northern Chile for several years. In order to prevent a future disaster, we developed two different techniques for restoration of damaged Macrocystis integrifolia beds in the Atacama region of Chile. (1) Explantation: Laborato...

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Published in:	Journal of applied phycology Vol. 26; no. 1; pp. 511 - 518
Main Authors:	Westermeier, Renato, Murúa, Pedro, Patiño, David J, Muñoz, Liliana, Atero, Carlos, Müller, Dieter G
Format:	Journal Article
Language:	English
Published:	Dordrecht Springer-Verlag 01-02-2014 Springer Netherlands Springer Nature B.V
Subjects:	Artificial reefs Biomedical and Life Sciences cotton Ecology explants Freshwater & Marine Ecology Laminariales Life Sciences macroalgae Macrocystis Macrocystis integrifolia Phaeophyceae Plant Physiology Plant Sciences Repopulation rocks Seedlings spores sporophytes Chile Chile, Atacama ISE, Chile Cotton gauze sleeve Repopulation Elastic band Atacama Chile Cyanoacrylate glue Sporophyll
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Abstract	The giant kelp Macrocystis (integrifolia) has been intensely harvested in northern Chile for several years. In order to prevent a future disaster, we developed two different techniques for restoration of damaged Macrocystis integrifolia beds in the Atacama region of Chile. (1) Explantation: Laboratory-grown juvenile sporophytes were fixed to different substrata (plastic grids, ceramic plates, or boulders) by elastic bands or fast-drying glue (cyanoacrylate). Explants reached 150–200 cm in length within 5 months (relative growth rate ≈ 1.3–1.7 % day⁻¹), and reproductive maturity in 5–7 months. (2) Seeding of spores: Mature sporophylls were placed at 8 m depth on the sea bottom, supported by cotton gauze sleeves attached to boulders of different origin. Sixty percent of clean boulders collected on the beach produced up to seven recruits per boulder. In contrast, 20 % of the boulders from the sea bottom, colonized by epibionts, showed up to two recruits. Relative growth rates, however, were similar (≈2.4–2.6 % day⁻¹). Practical applications of our findings are: laboratory-produced juvenile sporophytes fixed to various substrata by elastic bands or cyanoacrylate glue can be used to colonize rocks or artificial reefs. In cases, where laboratory-grown seedlings are unavailable, mature sporophylls from nearby Macrocystis beds can be used to establish new recruits on rocky substrata.
AbstractList	The giant kelp Macrocystis (integrifolia) has been intensely harvested in northern Chile for several years. In order to prevent a future disaster, we developed two different techniques for restoration of damaged Macrocystis integrifolia beds in the Atacama region of Chile. (1) Explantation: Laboratory-grown juvenile sporophytes were fixed to different substrata (plastic grids, ceramic plates, or boulders) by elastic bands or fast-drying glue (cyanoacrylate). Explants reached 150–200 cm in length within 5 months (relative growth rate ≈ 1.3–1.7 % day⁻¹), and reproductive maturity in 5–7 months. (2) Seeding of spores: Mature sporophylls were placed at 8 m depth on the sea bottom, supported by cotton gauze sleeves attached to boulders of different origin. Sixty percent of clean boulders collected on the beach produced up to seven recruits per boulder. In contrast, 20 % of the boulders from the sea bottom, colonized by epibionts, showed up to two recruits. Relative growth rates, however, were similar (≈2.4–2.6 % day⁻¹). Practical applications of our findings are: laboratory-produced juvenile sporophytes fixed to various substrata by elastic bands or cyanoacrylate glue can be used to colonize rocks or artificial reefs. In cases, where laboratory-grown seedlings are unavailable, mature sporophylls from nearby Macrocystis beds can be used to establish new recruits on rocky substrata. The giant kelp Macrocystis ( integrifolia ) has been intensely harvested in northern Chile for several years. In order to prevent a future disaster, we developed two different techniques for restoration of damaged Macrocystis integrifolia beds in the Atacama region of Chile. (1) Explantation: Laboratory-grown juvenile sporophytes were fixed to different substrata (plastic grids, ceramic plates, or boulders) by elastic bands or fast-drying glue (cyanoacrylate). Explants reached 150–200 cm in length within 5 months (relative growth rate ≈ 1.3–1.7 % day −1 ), and reproductive maturity in 5–7 months. (2) Seeding of spores: Mature sporophylls were placed at 8 m depth on the sea bottom, supported by cotton gauze sleeves attached to boulders of different origin. Sixty percent of clean boulders collected on the beach produced up to seven recruits per boulder. In contrast, 20 % of the boulders from the sea bottom, colonized by epibionts, showed up to two recruits. Relative growth rates, however, were similar (≈2.4–2.6 % day −1 ). Practical applications of our findings are: laboratory-produced juvenile sporophytes fixed to various substrata by elastic bands or cyanoacrylate glue can be used to colonize rocks or artificial reefs. In cases, where laboratory-grown seedlings are unavailable, mature sporophylls from nearby Macrocystis beds can be used to establish new recruits on rocky substrata. The giant kelp Macrocystis (integrifolia) has been intensely harvested in northern Chile for several years. In order to prevent a future disaster, we developed two different techniques for restoration of damaged Macrocystis integrifolia beds in the Atacama region of Chile. (1) Explantation: Laboratory-grown juvenile sporophytes were fixed to different substrata (plastic grids, ceramic plates, or boulders) by elastic bands or fast-drying glue (cyanoacrylate). Explants reached 150-200 cm in length within 5 months (relative growth rate approximately 1.3-1.7 % day-1), and reproductive maturity in 5-7 months. (2) Seeding of spores: Mature sporophylls were placed at 8 m depth on the sea bottom, supported by cotton gauze sleeves attached to boulders of different origin. Sixty percent of clean boulders collected on the beach produced up to seven recruits per boulder. In contrast, 20 % of the boulders from the sea bottom, colonized by epibionts, showed up to two recruits. Relative growth rates, however, were similar ( approximately 2.4-2.6 % day-1). Practical applications of our findings are: laboratory-produced juvenile sporophytes fixed to various substrata by elastic bands or cyanoacrylate glue can be used to colonize rocks or artificial reefs. In cases, where laboratory-grown seedlings are unavailable, mature sporophylls from nearby Macrocystis beds can be used to establish new recruits on rocky substrata. The giant kelp Macrocystis (integrifolia) has been intensely harvested in northern Chile for several years. In order to prevent a future disaster, we developed two different techniques for restoration of damaged Macrocystis integrifolia beds in the Atacama region of Chile. (1) Explantation: Laboratory-grown juvenile sporophytes were fixed to different substrata (plastic grids, ceramic plates, or boulders) by elastic bands or fast-drying glue (cyanoacrylate). Explants reached 150-200 cm in length within 5 months (relative growth rate[asymptotically =]1.3-1.7 % day^sup -1^), and reproductive maturity in 5-7 months. (2) Seeding of spores: Mature sporophylls were placed at 8 m depth on the sea bottom, supported by cotton gauze sleeves attached to boulders of different origin. Sixty percent of clean boulders collected on the beach produced up to seven recruits per boulder. In contrast, 20 % of the boulders from the sea bottom, colonized by epibionts, showed up to two recruits. Relative growth rates, however, were similar ([asymptotically =]2.4-2.6 % day^sup -1^). Practical applications of our findings are: laboratory-produced juvenile sporophytes fixed to various substrata by elastic bands or cyanoacrylate glue can be used to colonize rocks or artificial reefs. In cases, where laboratory-grown seedlings are unavailable, mature sporophylls from nearby Macrocystis beds can be used to establish new recruits on rocky substrata.
Author	Müller, Dieter G Westermeier, Renato Murúa, Pedro Atero, Carlos Muñoz, Liliana Patiño, David J
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Cites_doi	10.1139/b78-007 10.1016/S0025-326X(03)00054-7 10.3354/meps302049 10.1515/botm.1990.33.4.363 10.1111/pre.12013 10.1006/jmsc.2002.1187 10.1007/s10811-009-9466-1 10.1023/A:1008135515037 10.1007/s10811-011-9752-6 10.1016/j.energy.2010.06.005 10.1515/BOT.2000.029 10.1007/BF00003791 10.1007/s10811-012-9898-x 10.1007/s10811-010-9508-8 10.1016/j.jembe.2006.02.010 10.1007/s10811-006-9126-7 10.1111/j.1529-8817.2009.00752.x 10.1111/j.1529-8817.2010.00845.x 10.1111/j.0022-3646.1993.00001.x 10.1111/j.1365-2109.2005.01414.x 10.1023/A:1025183100958 10.1111/j.1529-8817.1988.tb00076.x
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Snippet	The giant kelp Macrocystis (integrifolia) has been intensely harvested in northern Chile for several years. In order to prevent a future disaster, we developed... The giant kelp Macrocystis ( integrifolia ) has been intensely harvested in northern Chile for several years. In order to prevent a future disaster, we...
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SubjectTerms	Artificial reefs Biomedical and Life Sciences cotton Ecology explants Freshwater & Marine Ecology Laminariales Life Sciences macroalgae Macrocystis Macrocystis integrifolia Phaeophyceae Plant Physiology Plant Sciences Repopulation rocks Seedlings spores sporophytes
Title	Repopulation techniques for Macrocystis integrifolia (Phaeophyceae: Laminariales) in Atacama, Chile
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