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Global Mapping of Infectious Diseases: Methods, Examples and Emerging Applications, Volume 62 [Kõva köide]

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Volume editor (TALA Research Group, Univers), Volume editor (TALA Research Group, University of Oxford, U.K.), Volume editor (Professor of Epidemiology, Spatial Epidemiology and Ecology Group, Department of Zoology, University of Oxford, South Parks Road, Oxford, OX1 3PS, U.K.)
  • Formaat: Hardback, 454 pages, kõrgus x laius: 229x152 mm, kaal: 890 g, Illustrated; Illustrations, unspecified
  • Sari: Advances in Parasitology
  • Ilmumisaeg: 19-Jun-2006
  • Kirjastus: Academic Press Inc
  • ISBN-10: 0120317621
  • ISBN-13: 9780120317622
Teised raamatud teemal:
Global Mapping of Infectious Diseases: Methods, Examples and Emerging Applications, Volume 62Suurem pilt
  • Formaat: Hardback, 454 pages, kõrgus x laius: 229x152 mm, kaal: 890 g, Illustrated; Illustrations, unspecified
  • Sari: Advances in Parasitology
  • Ilmumisaeg: 19-Jun-2006
  • Kirjastus: Academic Press Inc
  • ISBN-10: 0120317621
  • ISBN-13: 9780120317622
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780120317622.html
Märksõnad:
This special volume of Advances in Parasitology gives a comprehensive overview of the practical procedures involved in all aspects of global mapping. Coverage includes new research and new data, along with descriptions of new techniques in global mapping. With chapters written by leading experts in the field, it should be a standard for years to come.With an impact factor of 3.9, the series ranks second in the ISI Parasitology subject category.
Contributors to Volume 62 v
Series Editors' Preface vii
Guest Editiors' Preface ix
Models for Vectors and Vector-Borne Diseases
D.J. Rogers
Abstract
1(1)
A Brief History of Distribution Modelling
2(2)
Families of Distribution Models
4(8)
Predictor Variable Selection in Distribution Models
12(2)
What to Do With Sparse Datasets?
14(5)
Incorporating Spatial Information Into Models
19(2)
Model Selection and Multi-Model Inference
21(9)
Conclusion
30(8)
Acknowledgements
33(1)
References
33(5)
Global Environmental Data for Mapping Infectious Disease Distribution
S.I. Hay
A.J. Tatem
A.J. Graham
S.J. Goetz
D.J. Rogers
Abstract
38(1)
Introduction
38(1)
The AVHRR Sensor
39(10)
Temporal Fourier Analysis (TFA)
49(8)
Future Global Environmental Data
57(13)
Conclusions
70(10)
Acknowledgements
70(1)
References
71(9)
Issues of Scale and Uncertainty in the Global Remote Sensing of Disease
P.M. Atkinson
A.J. Graham
Abstract
80(1)
Introduction
80(6)
Issues of Scale and Spatial Resolution
86(10)
Issues of Uncertainty
96(11)
Summary
107(13)
Acknowledgements
108(1)
References
108(12)
Determining Global Population Distribution: Methods, Applications and Data
D.L. Balk
U. Deichmann
G. Yetman
F. Pozzi
S.I. Hay
A. Nelson
Abstract
120(1)
Introduction
120(4)
Data
124(9)
Methodology
133(5)
Health Applications
138(6)
Discussion
144(4)
Data Dissemination
148(10)
Acknowledgements
151(1)
References
151(6)
Defining the Global Spatial Limits of Malaria Transmission in 2005
C.A. Guerra
R.W. Snow
S.I. Hay
Abstract
157(1)
Introduction
158(1)
The Distribution of Malaria Risk from Travel Guidelines
159(2)
The Biological Limits of Transmission
161(8)
Distinguishing P. falciparum and P. vivax risk
169(1)
Regional Analysis
169(4)
Discussion
173(1)
Conclusions
174(8)
Acknowledgements
175(1)
References
175(7)
The Global Distribution of Yellow Fever and Dengue
D.J. Rogers
A.J. Wilson
S.I. Hay
A.J. Graham
Abstract
182(1)
Introduction
182(1)
The Pathogens
183(10)
Materials and Methods
193(7)
Results
200(8)
Discussion
208(1)
Conclusion
209(13)
Acknowledgements
210(1)
References
211(10)
Global Epidemiology, Ecology and Control of Soil-Transmitted Helminth Infections
S. Brooker
A.C.A. Clements
D.A.P. Bundy
Abstract
221(1)
Introduction
222(2)
Transmission Dynamics and the Environment
224(3)
Ecological Correlates
227(4)
Predicting Distributions
231(1)
Urbanization
232(2)
Global Control Strategies
234(3)
Control Applications of GIS/RS
237(6)
Global Distributions
243(3)
Predicted Numbers of Infections
246(4)
The Future
250(14)
Acknowledgements
252(1)
References
252(11)
Tick-borne Disease Systems: Mapping Geographic and Phylogenetic Space
S.E. Randolph
D.J. Rogers
Abstract
263(1)
Predicting Changing Risk of Infection on Evolutionary Time Scales
264(3)
The Evolutionary Time Scale for Vector-Borne Flaviviruses
267(2)
Correlates of Phylogenetic Patterns
269(7)
Testing the Role of Climate in the Evolution of Tick-borne Flaviviruses
276(18)
Acknowledgements
285(1)
References
285(9)
Global Transport Networks and Infectious Disease Spread
A.J. Tatem
D.J. Rogers
S.I. Hay
Abstract
294(1)
Introduction
294(1)
Global Transport Networks and Pandemics
295(11)
Global Transport Networks and Disease Vector Invasions
306(13)
Global Transport Networks and Vector-borne Diseases
319(13)
Conclusions
332(14)
Acknowledgements
332(1)
References
333(13)
Climate Change and Vector-Borne Diseases
D.J. Rogers
S.E. Randolph
Abstract
346(1)
The Mathematics and Biology of Changes in Vector-Borne Diseases
346(5)
Defining the Criteria for Claiming Climate Impacts on Vector-Borne Diseases
351(2)
Models for Climate Change Impacts on Vector-Borne Diseases
353(2)
Biological and Statistical Approaches to Vector-Borne Disease Futures
355(11)
Recent Changes in Vector-Borne Diseases: Has Climate Change Already had an Impact?
366(10)
Conclusions
376(7)
Acknowledgements
377(1)
References
377(6)
Index 383(8)
Contents of Volumes in This Series 391