Journal of Applied Phycology

, Volume 30, Issue 2, pp 1135–1147 | Cite as

Prospects for the commercial cultivation of macroalgae in northern Chile: the case of Chondracanthus chamissoi and Lessonia trabeculata

  • Sergio Zuniga-JaraEmail author
  • Karla Soria-Barreto


The depletion of marine resources, also a global issue, is affecting marine algae in Chile. Currently, the Chilean production of macroalgae is based mainly on the exploitation of natural populations. This study analyzed the potential for a private investor to undertake the culture of macroalgae as a means of addressing this depletion. The analysis indicated two species of macroalgae showed the greatest potential for farming in northern Chile, viz., Chondracanthus chamissoi and Lessonia trabeculata. The business model considers the acquisition of ropes (branch lines) with attached seedlings, the cultivation of the macroalgae in the ocean, and the subsequent sale of the wet biomass harvested at market prices. The culture technology evaluated was the long-line system under a program of multiple overlapping cohorts. For the baseline model, C. chamissoi had a negative net present value (NPV), and for a private investor, the cultivation of this species would not be profitable. Conversely, the NPV for L. trabeculata was positive, and increasingly so after 5.5 years of cultivation, as the income begins to cover the expenses. Sensitivity analysis showed that very significant productivity improvements would be needed for C. chamissoi cultivation to become a new source of income in northern Chile.


Chondracanthus chamissoi Lessonia trabeculata Chile Macroalgae culture Net present value 



We would like to thank Maria Cristina Marin-Riffo (Universidad Católica del Norte, Chile) and Ximena Fuentes (Aquaservicios, Chile) for their valuable contributions to this research.


  1. Algalab (2014). Especies de macroalgas de importancia comercial para Chile. (Accessed on March 24, 2015, in
  2. Aqua (2015) La importancia del cultivo y repoblamiento de algas. Grupo Editorial Editec, Chile. Posted on May 4, 2015. Available from:
  3. Ávila M, Pavez H, Candia A, San Martin R, Caceres J (2003). ‘Effects of temperature and irradiance on the germination and growth of Sarcothalia crispata in southern Chile’. In Chapman, A.R.O., Anderson, R.J., Vreeland, V.J. and Davidson, I. (Eds.): Proc. 17th Intern. Seaweed Symp., Oxford University Press, Oxford, 249–255 pp.Google Scholar
  4. Ávila M, Merino C, Guissen K, Piel M (2010). Manual de Cultivo de Macroalgas Pardas. “Programa de manejo, cultivo y repoblamiento para las algas pardas en la región de Tarapacá”. Fondo de Innovación para la Competitividad Regional (FICR) – Gobierno Regional de Tarapacá. 36 pp.Google Scholar
  5. Ávila M, Piel M, Caceres J, Alveal K (2011) Cultivation of the red alga Chondracanthus chamissoi: sexual reproduction and seedling production in culture under controlled conditions. J Appl Phycol 23:529–536CrossRefGoogle Scholar
  6. Bravo-Fritz CP, Sáez-Navarrete CA, Herrera-Zeppelin L, Varas-Concha F (2016) Multiscenario energy-economic evaluation for a biorefinery based on microalgae biomass with application of anaerobic digestion. Algal Res 16:292–307CrossRefGoogle Scholar
  7. Bulboa C, Macchiavello J, Véliz K, Oliveira E (2010) Germination rate and sporeling development of Chondracanthus chamissoi (Rhodophyta, Gigartinales) varies along a latitudinal gradient on the coast of Chile. Aquat Bot 92:137–141CrossRefGoogle Scholar
  8. Bulboa C, Véliz K, Sáez F, Sepúlveda C, Vega L, Macchiavello J (2013) A new method for cultivation of the carragenophyte and edible red seaweed Chondracanthus chamissoi based on secondary attachment disc: Development in outdoor tanks. Aquaculture 410–411:86–94CrossRefGoogle Scholar
  9. Buschmann A, Westermeier R, Retamales C (1995) Cultivation of Gracilaria in the sea-bottom in southern Chile: a review. J Appl Phycol 7:291–301CrossRefGoogle Scholar
  10. Buschmann A, Correa J, Westermeier R, Hernandez-Gonzalez M, Norambuena R (2001) Red algal farming in Chile: a review. Aquaculture 194:203–220CrossRefGoogle Scholar
  11. Buschmann A, Hernández-González M, Varela D (2008) Seaweed future cultivation in Chile: perspectives and challenges. Int J Environ Pollut 33:432–456CrossRefGoogle Scholar
  12. Chauton MS, Reitan KI, Norsker NH, Tveterås R, Kleivdal HT (2015) A technoeconomic analysis of industrial production of marine microalgae as a source of EPA and DHA-rich raw material for aquafeed: Research challenges and possibilities. Aquaculture 436:95–103CrossRefGoogle Scholar
  13. Draget KI (2016) Alginates: Fundamental properties and food applications. Reference Module in Food Science. Elsevier.,596-5.03182-6
  14. Edding M, Venegas M, Orrego P, Fonck E (1990) Culture and growth of Lessonia trabeculata juvenile sporophytes in northern Chile. Hydrobiologia 204/205:361–366CrossRefGoogle Scholar
  15. Edding M, Tala F (2003) Development of techniques for the massive culture of Lessonia trabeculata Villouta and Santelices (Phaeophyceae: Laminariales) in Chile. Aquac Res 34:507–515CrossRefGoogle Scholar
  16. Edding M, Fonck E, Acuña R, Tala F (2008) Cultivation of Chondrus canaliculatus (C. Agardh) Greville (Gigartinales, Rhodophyta) in controlled environments. Aquac Int 16:283–295CrossRefGoogle Scholar
  17. González A, Beltrán J, Hiriart-Bertrand L, Flores V, de Reviers B, Correa JA, Santelices B (2012) Identification of Cryptic Species in the Lessonia nigrescens Complex (Phaeophyceae, Laminariales). J Phycol 48:1153–1165CrossRefPubMedGoogle Scholar
  18. González J, Meneses I (1996) Differences in the early stages of development of gametophytes and tetrasporophytes of Chondracanthus chamissoi (C. Agardh) Kützing from Puerto Aldea, northern Chile. Aquaculture 143:91–107CrossRefGoogle Scholar
  19. Guillemin M-L, Valero M, Faugeron S, Nelson W, Destombe C (2014) Tracing the Trans-Pacific Evolutionary History of a Domesticated Seaweed (Gracilaria chilensis) with Archeological and Genetic Data. PLoS One 9(12):e114039CrossRefPubMedPubMedCentralGoogle Scholar
  20. Kawashima S (1993) Cultivation of the brown alga, Laminaria “Kombu”. In Ohno M, Critchley AT (eds) Seaweed cultivation and marine ranching. JICA, Yokosuka pp. 25–40.Google Scholar
  21. Macchiavello J, Sepúlveda C, Araya C, Mendiz N, Martinez P, Sáez F, Calderón D (2012) Manual de cultivo de Chondracanthus chamissoi (Chicorea de mar). Acuicultura en áreas de manejo: Una innovación para mejorar su desempeño mediante el cultivo suspendido de chicorea de mar Chondracanthus chamissoi en la Región de Antofagasta. Código de financiamiento CORFO: 12BPCR-16,600. 31 pp.Google Scholar
  22. Narayankumar R, Krishnan M (2011) Seaweed mariculture: An economically viable alternate livelihood option (ALO) for fishers. Indian J Fish 58:79–84Google Scholar
  23. Norambuena R (1996) Recent trends of seaweed production in Chile. Hydrobiologia 326(327):371–379CrossRefGoogle Scholar
  24. Rojas R, León M, Rojas R (1996) Practical and descriptive techniques for Gelidium rex (Gelidiales, Rhodophyta) culture. Hydrobiologia 326(327):367–370CrossRefGoogle Scholar
  25. Ross S, Westerfield R, Jordan B (2012) Fundamentals of Corporate Finance Standard Edition, 10th edn. McGraw-Hill Education, NYGoogle Scholar
  26. Ruiz Campo S, Zuniga-Jara S (2017) Reviewing capital cost estimations in aquaculture. Aquac Econ Manag.
  27. Santelices B, Ugarte R (1987) Production of Chilean Gracilaria: problems and perspectives. In: Ragan MA, Bird CJ (eds) Twelfth International Seaweed Symposium. Developments in Hydrobiology, vol, vol 41. Springer, Dordrecht pp, pp 295–299CrossRefGoogle Scholar
  28. Santelices B (1989) Algas Marinas de Chile. Distribución, Ecología, Utilización y Diversidad. Universidad Católica de Chile, Santiago 399 ppGoogle Scholar
  29. Senate of the Republic of Chile. (2012). Boletín N° 8091–21. Departamento de Prensa. Valparaíso, 02/10/2012.Google Scholar
  30. Sernapesca (2014) Anuario Estadístico de Pesca 2004 al 2013. Servicio Nacional de Pesca., Accessed on March 24, 2015.
  31. Subpesca (2013a) Veda extractiva de los recursos huiro negro Lessonia nigrescens y huiro pito Macrocystis spp. en las regiones de Atacama y Coquimbo. Informe Técnico (RPESQ) N° 003(/2013)Google Scholar
  32. Subpesca (2013b). Valor sanción 2012–2013. Medidas de administración y regímenes de acceso. Regulaciones de pesca extractiva. Accessed on March, 31, 2015.
  33. Tala F, Edding M, Vásquez J (2004) Aspects of the reproductive phenology of Lessonia trabeculata (Laminariales, Phaeophyceae) from three populations in northern Chile. N Z J Mar Freshw Res 38:255–266CrossRefGoogle Scholar
  34. Vásquez J, Tala F, Vega A, Zuniga-Jara S, Edding M y N. Piaget (2008). Bases Ecológicas y Evaluación de usos alternativos para el manejo de praderas de Algas Pardas de la III y IV regiones. Universidad Católica del norte. Proyecto FIP 2005–22.Google Scholar
  35. Vásquez J, Piaget N, Tala F, Vega A (2010) Evaluación de la biomasa de praderas naturales y prospección de potenciales lugares de repoblamiento de algas pardas en la costa de la XV, I y II Regiones. Informe final. Proyecto FIP N° 2008–38. 174 pp.Google Scholar
  36. Vásquez J, Piaget N, Vega A (2012) The Lessonia nigrescens fishery in northern Chile: “how you harvest is more important than how much you harvest”. J Appl Phycol 24:417–426CrossRefGoogle Scholar
  37. Westermeier R, Patiño D, Piel M, Maier I, Mueller D (2006) A new approach to kelp mariculture in Chile: production of free-floating sporophyte seedlings from gametophyte cultures of Lessonia trabeculata and Macrocystis pyrifera. Aquac Res 37:164–171CrossRefGoogle Scholar
  38. Zuniga S, Soria K (2009) Costo del capital en el sector pesquero-acuícola Chileno. Interciencia 34(8):543–550Google Scholar
  39. Zuniga-Jara S, Goycolea-Homann M (2014) A bioeconomic model for red tilapia culture on the coast of Ecuador. Aquac Int 22:339–359CrossRefGoogle Scholar
  40. Zuniga-Jara S, Marín-Riffo MC, Bulboa-Contador C (2016) Bioeconomic analysis of giant kelp Macrocystis pyrifera cultivation (Laminariales; Phaeophyceae) in northern Chile. J Appl Phycol 28:405–416CrossRefGoogle Scholar
  41. Zuniga-Jara S, Marin-Riffo M (2016) Bioeconomic analysis of small-scale cultures of Kappaphycus alvarezii (Doty) Doty in India. J Appl Phycol 28:1133–1143CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media B.V. 2017

Authors and Affiliations

  1. 1.Escuela de Ciencias EmpresarialesUniversidad Católica del NorteCoquimboChile

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