Project description
Studying the effects of brine on the stress metabolism of protected seagrass Posidonia oceanica
Desalination has gained importance as a water management activity, particularly in countries along the Mediterranean seashore. The brine waste produced through desalination is directly discharged in the subtidal zone and can harm coastal communities, most of which are nurtured by seagrass meadows. The EU-funded OSMOTIC SEAGRASS project intends to study the effects of brine on the stress metabolism of the protected seagrass Posidonia oceanica. Through a series of laboratory- and field-based experiments, it will observe antioxidant metabolism, osmotic regulation and the whole transcriptome and contrast them with the physiology and primary metabolism. This work will provide insight into the tolerance mechanisms of Posidonia oceanica as well as tools for environmental biomonitoring.
Objective
Desalinization has become an important water management activity, Especially in countries along the Mediterranean Seashore. Desalination produces a discard of brines which are directly discharged to the subtidal; these can cause detrimental effects on coastal communities, most of which are nurtured by seagrass meadows. Posidonia oceanica is a protected seagrass, base of the most ecologically and economically important ecosystems along the Mediterranean coast. Our project aims to assess the effects of brines on the stress metabolism of P. oceanica through laboratory- and field-based experiments. We aim to provide insights of tolerance mechanisms through observations on antioxidant metabolism, osmotic regulation and the whole transcriptome; this will be contrasted with observations on the physiology and primary metabolism. Laboratory experiments can provide valuable information on specific metabolic features but do not necessarily represent responses at the natural, more complex, environment; in contrast, field observations denote responses under realistic conditions but lack information that can be attributed to specific stressors. In this context, the latter will provide valuable information on mechanisms to thrive under hypersalinity and contribute to study biomarkers that could act as environmental biotechnology tools to follow the extent of brine impacts. The research will be led Dr. Claudio Sáez, experienced researcher in the field of biochemical and molecular stress metabolism. Groups of Prof. José Luis Sánchez-Lizaso at Universidad de Alicante (beneficiary) and Dr. Juan Manuel Ruiz at the Spanish Oceanographic Institute (secondment), in addition to the Spanish Association of Desalination and Reuse (industry link) through Dr. Domingo Zarzo, will support the researcher to develop this interdisciplinary project that merges the expertise of highly achieved scientists in the areas of ecology, physiology, biochemistry, transcriptomics and innovation.
Fields of science
Programme(s)
Funding Scheme
MSCA-IF - Marie Skłodowska-Curie Individual Fellowships (IF)Coordinator
03690 Alicante
Spain