Repositorio
Institucional

Gajardo, Gonzalo

Moron-Lopez, Jesus

Vergara, Karen

Ueki, Shoko

Guzman, Leonardo

Espinoza-Gonzalez, Oscar

Sandoval, Alondra

Fuenzalida, Gonzalo

Murillo, Alejandro A.

Riquelme, Carlos

Cameron, Henry

Nagai, Satoshi

Maruyama, Fumito

Fujiyoshi, So

Yarimizu, Kyoko

Perera, Ishara

Kawai, Mikihiko

Avila, Andres

Larama, Giovanni

Gonzalez, Mariela A.

Rilling, Joaquin I.

Campos, Marco

Ruiz-Gil, Tay

Duran-Vinet, Benjamin

Acuna, Jacquelinne J.

Jorquera, Milko A.

The holobiome of marine harmful algal blooms (HABs): A novel ecosystem-based approach for implementing predictive capabilities and managing decisions

ELSEVIER SCI LTD

ENVIRONMENTAL SCIENCE & POLICY

en

Harmful algal blooms (HABs) cause severe socioecological, economic, food innocuity, and public health problems in countries where aquaculture, fisheries, and tourism share marine ecosystem goods and services. HABs will likely intensify with rising eutrophication, ocean warming, acidification and climatic atmospheric and oceanographic os-cillations (e.g., El Nin similar to o). During the Decade of Ocean Science for Sustainable Development (2021-2030), it is imperative to produce knowledge to predict HABs and mitigate their severe negative sustainability consequences. This review on coevolved symbiotic and antagonistic algae-bacteria interactions highlights the HAB holobiome, i.e., phycosphere-attached and free-living bacteria, as potential bioindicators of bloom onset and decline as they promote, inhibit or suppress algal growth. The reviewed literature led us to discuss (1) the conceptual issues and experimental approach required to generate and include the HAB holobiome data into monitoring schemes to evaluate the resulting predictive model, (2) the relevance of an integrated science-policy approach to articulate the holobiome knowledge among stakeholders, including policymakers, for the efficient use and adaptive management of ecosystem services, and 3) a way to translate, once validated, the holobiome-based predictive model into a widely adopted policy. In this sense, the ongoing Monitoring Algae in Chile project (MACH, www.mach-satreps.org/en/) provides a framework to articulate the holobiome science with policy to establish reliable forecast systems to minimize HAB impact on public health, aquaculture and fisheries activities. This Chilean-Japanese research collaboration builds on the lessons from the catastrophic HAB event on Chiloe ' Island (May 2016), where world-class salmon, mussel aquaculture, and arti-sanal fishers coexist.

2023

artículo de revisión

10.1016/j.envsci.2023.02.012

PDF

Algae-bacteria interactions

Forecasting system

Harmful algal blooms

Phycosphere

Phytoplankton

Science-policy interphase

Ciencias Ambientales y Ecología

Interacciones algas-bacterias

Sistema de previsión

Floraciones de algas nocivas

Ficosfera

fitoplancton

Interfase ciencia-política

44.0

54

artículo de revisión

versión publicada

metadata

metadata

WOS:000955839800001

1462-9011

hibrida

Ciencias Ambientales y Ecología

SATREPS JPMJSA1705