The Quebec Natural Heritage Data Center (CDPNQ) is the most comprehensive information management system on species in a precarious situation in Quebec. It broadcasts more than 6,700 occurrences of floristic species for 506 species in a precarious situation. This information is the source data used to generate ranges. By definition, a range is a generalized geographic area where a species occurs without taking into account its particular habitat needs. This information is particularly useful for planning inventories or supporting the planning of conservation projects. The creation of ranges for all species in precarious situations in Quebec is an exercise that can be particularly complex, due in particular to the number of species involved, the evolutionary nature of the geomatic information available and the natural spatial distribution of species. The project for the automated creation of distribution areas was developed in order to avoid the problems raised previously. This approach makes it possible to provide, for all plant species in precarious situations in Quebec, a product that is standardized, reliable, easily reproducible and much easier to maintain. Each range has up to three “zones”: “presence,” “historical,” and “possible presence.” These three zones are defined according to the viability ratings and the level of precision of the occurrences of the species present in each ecological district.**This third party metadata element was translated using an automated translation tool (Amazon Translate).**

The Bicknell's Thrush (*Catharus bicknelli*) is a bird species that is endangered in Canada and vulnerable internationally. The range of this species is one of the most restricted in North America: more than 75% of the species' numbers are believed to be found in Quebec. There are a few models for mapping Bicknell's Thrush habitat. On the other hand, the latter come from low-resolution geospatial data and, for most of them, the variation explained in the presence of the species is mainly explained by altitude and latitude and little by habitat characteristics, which makes it difficult to precisely identify places with high potential for the species. Following the arrival of lidar data, new methods for characterizing forest structure make it possible to better characterize the habitat of the Bicknell's Thrush. The distribution model, shared here, shows the probabilities of occurrence of Bicknell's Thrush using lidar data. It was calibrated with 139 occurrences (spatial accuracy of 10 m), each associated with 10 random locations in a buffer zone of 523 to 1,569 m, and then validated using an independent dataset of 3,928 listening points. This model is calibrated and validated using two independent Bicknell's Thrush inventory datasets conducted between 2011 and 2021. Based on the results of the model, two statistical thresholds were applied to guide decision making. The probability of the species being present was highest in dense balsam fir stands at high altitudes. The top-ranked model also incorporated forest succession, with canopy height adjustment to account for tree growth since lidar data was acquired. For more details, for example on the study area, the data used and the modeling carried out, consult the scientific article by Tremblay et al. (2025) [“Assessing *Catharus bicknelli* (Bicknell's Thrush) habitat dynamics: A high-resolution model based on LiDAR metrics”] (https://academic.oup.com/condor/article/127/4/1/8168976) (Open Source article). ## #Qu Is it an MRE? ### A species distribution model (MRE) aims to predict the range of a species or its probability of presence. For general information, see the [“Habitat Quality Assessment”] page (https://www.quebec.ca/agriculture-environnement-et-ressources-naturelles/faune/gestion-faune-habitats-fauniques/habitats-fauniques/evaluation-qualite-habitats). For a comparison of the different types of models, consult the document [“Difference between habitat quality score or key, habitat quality index and species distribution model”] (https://cdn-contenu.quebec.ca/cdn-contenu/faune/documents/habitats/difference-cote-cle-indice-qualite-habitat-modele-repartition-espece.pdf). ## #MISES ON GUARD ### * ** __The article by Tremblay et al. (2025) should be cited when using this model (see “Documentation” section) __ . ** * This model is linked to the [“*Compendium of standardized protocols for inventorying Bicknell's thrush and its habitat in the context of wind projects in Québec*”] (https://www.quebec.ca/agriculture-environnement-et-ressources-naturelles/biodiversite/collecte-donnees-especes-protocoles-standardises) () from the Government of Quebec. Consult the compendium to find out how to apply the model to the Bicknell's thrush inventories required in the wind energy context. ## #Documentation ### TREMBLAY, J.A., F. LESSARD, M. LESSARD, M. RIOPEL, M. RIOPEL, Y. AUBRY and A. DESROCHERS (2025). [Assessing *Catharus bicknelli* (Bicknell's Thrush) habitat dynamics: A high-resolution model based on LiDAR metrics] (https://academic.oup.com/condor/article/127/4/1/8168976), *Ornithological Applications*, 127: duaf040. MINISTRY OF THE ENVIRONMENT, CLIMATE CHANGE, WILDLIFE AND PARKS (2026). [Compendium of standardized inventory protocols for Bicknell's thrush and its habitat in the context of wind energy projects in Quebec] (https://www.quebec.ca/agriculture-environnement-et-ressources-naturelles/biodiversite/collecte-donnees-especes-protocoles-standardises), Government of Quebec, Quebec, Quebec, 23 p. + appendices.**This third party metadata element was translated using an automated translation tool (Amazon Translate).**