Designing a network of marine protected areas for Chilean Patagonia
Despite increasing studies over the last decade, data on marine benthic invertebrates of Chilean Patagonia are still lacking throughout large parts of the fjord region. The Huinay Scientific Field Station (HSFS) together with scientists from Chile and around the globe have been working towards filling this gap in knowledge, compiling an extensive database of known species’ presence points and oceanographic data.
With an estimated coastline of 84.000 km, gathering such information is costly and time consuming, as many areas of Chilean Patagonia remain unexplored. Poor knowledge coupled with increased industrialization activity within the fjord region have created a need for rapid assessment of species distribution patterns. This is of a high priority to understand and sustainably conserve essential ecosystems. Species distribution modelling (SDM) is one way of rapidly filling these kinds of knowledge gaps. SDMs use abiotic information (environmental factors) and biotic occurrence data (presence-absence locations) to predict the relative likelihood of occurrence or the relative occurrence rate of a species over a pre-defined geographic area.
The HSFS has created SDMs using the maximum entropy algorithm (MaxEnt) for 215 benthic invertebrates in Chilean Patagonia. These models are then used in MARXAN, a decision support software for sustainable conservation planning and reserve system design. Using an algorithm, MARXAN models the ‘costs’ of maintaining different protected area scenarios based on conservation objectives. MARXAN then outputs a series of possible reserve sites that either are based on pure ecological needs, or in addition also include social and economic needs. The goal is to achieve the maximum conservation of biodiversity for the smallest possible cost and within a reasonable area. HSFS is exploring the use of MARXAN, how it works and the validity of its outputs, as a prospective tool for identifying various MPA scenarios in Chilean Patagonia.
This project is carried out in cooperation with several NGOs and the ministry of environment.
Projects that are feeding and fed into this major project are:
- PEW marine fellowship to Vreni Häussermann (2011-2017) “A rapid assessment project for mid-scale biogeographic pattern analysis for the development of a MPA network plan in the Chilean Patagonian Fjord Region and action for its implementation”
- ROLEX Project to Vreni Häussermann (2017-2020) “Patagonia „in depth. Discovering new species in the unknown depth of Chilean fjords to understand their ecosystems and support their sustainable use and conservation” .
- Fondecyt project 1131039 to Vreni Häussermann and Günter Försterra (2013-2016) “Zoogeography of the Chilean fjord region (42ºS – 56ºS) based on selected taxa with a wide range of ecological, reproductive and dispersal characteristics”
- Fondecyt project 1161699 to Vreni Häussermann and Günter Försterra (2016-2019) “Abiotic key factors influencing species composition in Chilean Patagonian fjords and their usefulness as proxies for species distribution models, habitat mapping and predicting patterns in benthic assemblages.”
Related scientific and newspaper articles
- Edgar, Graham J., Rick D. Stuart-Smith, Trevor J. Willis, Stuart Kininmonth, Susan C. Baker, Stuart Banks,Neville S. Barrett, Mikel A. Becerro, Anthony T. F. Bernard, Just Berkhout, Colin D. Buxton, Stuart J. Campbell, Antonia T. Cooper, Marlene Davey, Sophie C. Edgar, Günter Försterra, David E. Galvan, Alejo J. Irigoyen, David J. Kushner, Rodrigo Moura, P. Ed Parnell, Nick T. Shears, German Soler, Elisabeth M. A. Strain & Russell J. Thomson (2014): Global conservation outcomes depend on marine protected areas with five key features. Nature 506: 216-221.
Ecosystem Research in Chilean Patagonia
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