Your search keyword '"M. Waltner-Toews"' showing total 3 results

1. Investigation of Ground Level and Remote-Sensed Data for Habitat Classification and Prediction of Survival of Ixodes scapularis in Habitats of Southeastern Canada

Author

Dominique F. Charron, L. R. Lindsay, A. Maarouf, Nicholas H. Ogden, Christopher J. O'Callaghan, Ian K. Barker, David Waltner-Toews, Stephanie Brazeau, Guy Beauchamp, Muhammad Morshed, R. A. Thompson, and M. Waltner-Toews

Subjects

Male, Canada, Range (biology), Oviposition, Woodland, Tick, Models, Biological, Sensitivity and Specificity, Normalized Difference Vegetation Index, Trees, Sand dune stabilization, Soil, Dogs, Animals, Computer Simulation, Ecosystem, Ixodes, General Veterinary, biology, Ecology, Data Collection, fungi, Parasitiformes, biology.organism_classification, Survival Analysis, Infectious Diseases, Habitat, Ixodes scapularis, Insect Science, Arachnid Vectors, Female, Parasitology

Abstract

In southeastern Canada, most populations of Ixodes scapularis Say, the Lyme disease vector, occur in Carolinian forests. Climate change projections suggest a northward range expansion of I. scapularis this century, but it is unclear whether more northerly habitats are suitable for I. scapularis survival. In this study, we assessed the suitability of woodlands of the Lower Great Lakes/St. Lawrence Plain region for I. scapularis by comparing tick egg survival in four different woodlands. Woodlands where I. scapularis are established, and sand dune where I. scapularis do not survive, served as positive and negative control sites, respectively. At two woodland sites, egg survival was the same as at the positive control site, but at two of the sites survival was significantly less than either the positive control site, or one of the other test sites. Egg survival in all woodland sites was significantly higher than in the sand dune site. Ground level habitat classification discriminated among woodlands in which tick survival differed. The likelihood that I. scapularis populations could persist in the different habitats, as deduced using a population model of I. scapularis, was significantly associated with variations in Landsat 7 ETM+ data (normalized difference vegetation index [NDVI] and Tasselled Cap indices). The NDVI index predicted habitat suitability at Long Point, Ontario, with high sensitivity but moderate specificity. Our study suggests that I. scapularis populations could establish in more northerly woodland types than those in which they currently exist. Suitable habitats may be detected by ground-level habitat classification, and remote-sensed data may assist this process.

Published

2006

2. Investigation of Ground Level and Remote-Sensed Data for Habitat Classification and Prediction of Survival ofIxodes scapularisin Habitats of Southeastern Canada

Author

N. H. Ogden, I. K. Barker, G. Beauchamp, S. Brazeau, D. F. Charron, A. Maarouf, M. G. Morshed, C. J. O’Callaghan, R. A. Thompson, D. Waltner-Toews, M. Waltner-Toews, and L. R. Lindsay

Subjects

Infectious Diseases, General Veterinary, Insect Science, Parasitology

Published

2006

3. Investigation of ground level and remote-sensed data for habitat classification and prediction of survival of Ixodes scapularis in habitats of southeastern Canada.

Author

Ogden NH, Barker IK, Beauchamp G, Brazeau S, Charron DF, Maarouf A, Morshed MG, O'Callaghan CJ, Thompson RA, Waltner-Toews D, Waltner-Toews M, and Lindsay LR

Subjects

Animals, Canada, Computer Simulation, Dogs, Female, Male, Models, Biological, Oviposition, Sensitivity and Specificity, Soil analysis, Survival Analysis, Trees, Arachnid Vectors physiology, Data Collection methods, Ecosystem, Ixodes physiology

Abstract

In southeastern Canada, most populations of Ixodes scapularis Say, the Lyme disease vector, occur in Carolinian forests. Climate change projections suggest a northward range expansion of I. scapularis this century, but it is unclear whether more northerly habitats are suitable for I. scapularis survival. In this study, we assessed the suitability of woodlands of the Lower Great Lakes/St. Lawrence Plain region for I. scapularis by comparing tick egg survival in four different woodlands. Woodlands where I. scapularis are established, and sand dune where I. scapularis do not survive, served as positive and negative control sites, respectively. At two woodland sites, egg survival was the same as at the positive control site, but at two of the sites survival was significantly less than either the positive control site, or one of the other test sites. Egg survival in all woodland sites was significantly higher than in the sand dune site. Ground level habitat classification discriminated among woodlands in which tick survival differed. The likelihood that I. scapularis populations could persist in the different habitats, as deduced using a population model of I. scapularis, was significantly associated with variations in Landsat 7 ETM+ data (normalized difference vegetation index [NDVI] and Tasselled Cap indices). The NDVI index predicted habitat suitability at Long Point, Ontario, with high sensitivity but moderate specificity. Our study suggests that I. scapularis populations could establish in more northerly woodland types than those in which they currently exist. Suitable habitats may be detected by ground-level habitat classification, and remote-sensed data may assist this process.

Published

2006