CMFRI suggests Climate Smart Villages to check rising risks in coastal region

In view of a barrage of challenges from flooding to shoreline changes to disease outbreaks posing a serious threat to coastal lives, the ICAR-Central Marine Fisheries Research Institute (CMFRI) has suggested climate-smart villages check the risks in the region.

The institute is prioritising the development of climate-smart villages by providing training and resources to coastal fishers and farmers in vulnerable villages to help them adapt to the climate crisis, according to a CMFRI report.

The report pointed out that increased frequency of cyclones, subsequent storm surges, and coastal flooding are causing social and economic hardship among the coastal communities, making them the most vulnerable to climate emergency.

“Tropical cyclones, floods, excess rainfall and receding coastline have a cascading impact on fishers’ safety and livelihoods which leave the community with loss of income, loss of property, health problems and unemployment”, said Grinson George, Head of the Marine Biodiversity Management and Environment Division of the CMFRI. The report focused on India’s status of climate resilience initiatives in the marine fisheries sector.

CMFRI also suggested water clinics to address the increasing cases of disease outbreaks in the coastal region. “Waterborne diseases are on the rise in coastal areas owing to storm surges and flooding” George said, adding that the rising sea surface temperatures (SST) aggravate the issue as it contributes to an increased microbial load in the waters. “This poses a looming threat to human health along the coastal belt. Proper testing of the water quality and community awareness are some of the possible solutions to address the issue and the proposed water clinics are aimed in this direction, he added.

CMFRI also proposed a slew of smart solutions including Integrated Multi-trophic Aquaculture (IMTA), seaweed farming, mangrove forestation and other adaptation and mitigation measures to safeguard fishers. In addition, it suggested AI and satellite remote sensing in the estimation and prediction of marine harvest so that climate-based inter-annual fluctuations can be addressed. Developing suitable species distribution models will help assess multi-species stocks in tropical climate challenged contexts.

In order to boost the marine capture fisheries sector, unconventional and untapped deep-sea resources such as oceanic squid, oceanic tuna, tuna like fishes and mesopelagic fishes could be explored, CMFRI suggested.