June 4, 2021 - With the scientific community in Croatia busy and involved in international projects, meet the CASCADE Project. Learn how Italian and Croatian scientists are working together in monitoring ecosystems.
Croatian scientists in Croatia are running various projects which either don't get reported on by journalists, or if they are reported on, they sadly don't get too much attention from the public.
One such project is the Projekt CASCADE which started back on January first, 2020, and will continue until the very end of 2022.
As reported on the website of The Institute of Oceanography and Fisheries (IOR), the 5,817,547 euros, 85 % of that capital (4,944,914.95 euros) is secured by The European Regional Development Fund (ERFD).
CASCADE is short for „CoaStal and marine waters integrated monitoring systems for ecosystems protection and management“, and is part of the Interreg Italy-Croatia 2014-2020 strategic program. Assess the quality of coastal marine ecosystems in order to restore the habitats of endangered species and provide support for integrated management is the main goal set by 2022.
For the next three years, the project team from the Laboratory for Plankton and Shell Toxicity and the Laboratory for Chemical Oceanography and Sedimentology will work on monitoring, gathering knowledge about habitat and ecosystem biodiversity in the field of project cooperation (Adriatic Sea). It will participate in the establishment of new, as well as the improvement, of existing coastal systems for monitoring and management of coastal and open water ecosystems. Joint actions will assess and protect coastal and marine biodiversity and establish restoration actions. The pilot area of the Institute of Oceanography and Fisheries (IOR) within the EU CASCADE project is the mouth of the Neretva River“, explains the IOR website.
There are eleven pilot areas in Croatia and Italy where the researches will be conducted: lagoon Grado and Marano and Gulf of Trieste, coastal belt of the Italian region Emilia-Romagna, marine protected area Torre Guaceto (natural reef), Punta Della Contessa, Melendugno in the Italian region of Puglia, the mouth of the Neretva river, the coastal zone of the Italian region of Veneto, mouth of the river Miljašić Jaruga, coastal belt of the Italian region of Molise, the northeastern part of the Adriatic Sea in Croatia, mouth of the river Cetina, Torre del Cerrano and Pineto Marine Park on the Abruzzo coast, and finally, the coastal zone of the Italian Marche region.
„At the mouth of the Neretva River (P4 pilot area), the IOR team members will sample sediment, shells, and seawater, depending on the type of matrix, they will analyze various parameters such as salinity, oxygen concentrations, heavy metals, and nutrients, with the aim of establishing an optimal system of observation of coastal and open waters“, added IOR.
The head of the projects within the IOR side is Dr. Sc. Ivana Ujević and various Italian and Croatian regions/counties, regional development agencies, scientific institutes, and two ministries from Italy and Croatia are included as associated partners.
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June 3, 2021 - With climate change bringing trouble to the coast, coastal hazard monitoring is a must. Meet the new method developed by a research team led by a scientist from Ruđer Bošković Institute (IRB).
Individuals from the scientific Ruđer Bošković Institute (IRB) in Zagreb continue to catch the attention of internationally established scientific journals, such as Marine Science ranked in the top 10% of magazines for the issues of sea and water biology.
This time, IRB's dr. Cléa Denamiel led an international research team that presented an innovative concept of warning on coastal hazards with stochastic methods.
Authors at Standford.edu in a pdf presentation are presenting stochastic methods as methods that involve random variables. They gave an example of multiple arrows flying towards a rock from multiple directions. When they hit the rock, arrows are positioned randomly.
„Nevertheless, you can still use their positions to estimate the location of the target“, explained Standford.edu presentation.
So, the presentation further elaborated that „like using randomly-positioned arrows to estimate the position of a target, stochastic methods have the goal of gaining information out of randomness“.
„To put it simply, current systems of warning are based on numerical methods that require advanced informatical resources, living a huge carbon dioxide print on the environment, while with the suggested appliance of stochastic methods to optimize forecast of coastal hazards and greatly reduce the need for informatics resources while taking elements of coincidence into account“, explained IRB in its official press release.
This is very important as coastal areas are under the increasing influence of climate hazards, particularly sea-level rise. IRB states that its predicted hazards related to sea level directly impact around 630 million people around the world by 2100.
The new method of warning and quantifying data on coastal hazards presented by dr. Denamiel and her team is innovative as all current systems for such monitoring are much more complexed as they are based on numerical models from kilometer to the meter of clearance.“The suggested approach would require fewer resources while keeping or even improving forecasts and assessments of coastal hazards“, concluded, dr. Ivica Vilibić from IRB.
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