Isidora Katara scite author profile

We review the variety of existing modelling approaches applied to species habitat mapping and we discuss issues arising from the availability and nature of sampled biological data and corresponding ecological and environmental habitat descriptors, as well as the different spatial analysis approaches that are selected according to specific hypotheses. We focus on marine species habitat mapping, presenting an overview of work on modelling fish habitat carried out through a European Communities Policy-Support Action, EnviEFH 'Environmental Approach to Essential Fish Habitat (EFH) Designation' (2005)(2006)(2007)(2008). The selection of the appropriate habitat model is dataset-specific and the resulting EFH maps are often similar in spite of using different models. Derived EFH maps are based on either environmental ranges (used as minimum and maximum environmental habitat descriptors) or probability of occurrence values. We apply model outputs to regions larger than sampled areas making use of the capacity of satellite data to cover wide areas.

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A review of cephalopod—environment interactions in European Seas

Pierce¹,

Valavanis²,

Guerra³

et al. 2008

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A review of cephalopod–environment interactions in European Seas

et al. 2008

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Cephalopods are highly sensitive to environmental conditions and changes at a range of spatial and temporal scales. Relationships documented between cephalopod stock dynamics and environmental conditions are of two main types: those concerning the geographic distribution of abundance, for which the mechanism is often unknown, and those relating to biological processes such as egg survival, growth, recruitment and migration, where mechanisms are sometimes known and in a very few cases demonstrated by experimental evidence. Cephalopods seem to respond to environmental variation both 'actively' (e.g. migrating to areas with more favoured environmental conditions for feeding or spawning) and 'passively' (growth and survival vary according to conditions experienced, passive migration with prevailing currents). Environmental effects on early life stages can affect life history characteristics (growth and maturation rates) as well as distribution and

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Modelling of essential fish habitat based on remote sensing, spatial analysis and GIS

Katara

Pierce

Valavanis

et al. 2008

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Fishery improvement projects: Performance over the past decade

Cannon¹,

Sousa²,

Katara

et al. 2018

Marine Policy

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Isidora Katara

Modelling of essential fish habitat based on remote sensing, spatial analysis and GIS

A review of cephalopod—environment interactions in European Seas

A review of cephalopod–environment interactions in European Seas

Modelling of essential fish habitat based on remote sensing, spatial analysis and GIS

Fishery improvement projects: Performance over the past decade

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