geohabnet: An R package for mapping habitat connectivity for biosecurity and conservation
Abstract
Mapping habitat quality, based on factors like host availability and environmental suitability, is a common approach to determining which locations are important for the spread of a species. Mapping habitat connectivity takes geographic analyses a step further, evaluating the potential roles of locations in biological invasions, pandemics, or species conservation. Locations with high habitat quality may play a minor role in species spread if they are geographically isolated. Yet, a location with lower habitat quality may play a major role in a species' spread if it acts as a bridge between regions that would otherwise be physically fragmented. Here we introduce the geohabnet R package, which evaluates the potential importance of locations for the spread of species through habitat landscapes. geohabnet incorporates key factors such as dispersal probabilities and habitat availability in a network framework, for better understanding habitat connectivity for host-dependent species, such as pathogens, arthropod pests, or pollinators. geohabnet uses publicly available or user-provided datasets, six network centrality metrics, and a user-selected geographic scale. We provide examples using geohabnet for surveillance prioritization of emerging plant pests in Africa and the Americas. These examples illustrate how users can apply geohabnet for their species of interest and generate maps of the estimated importance of geographic locations for species spread. geohabnet provides a quick, open-source, and reproducible baseline to quantify a species' habitat connectivity across a wide range of geographic scales and evaluates potential scenarios for the expansion of a species through habitat landscapes. geohabnet supports biosecurity programs, invasion science, and conservation biology when prioritizing management efforts for transboundary pathogens, pests, or endangered species.