| Contributors to Volume 62 |
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| Series Editors' Preface |
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| Guest Editiors' Preface |
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Models for Vectors and Vector-Borne Diseases |
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1 | (1) |
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A Brief History of Distribution Modelling |
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2 | (2) |
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Families of Distribution Models |
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4 | (8) |
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Predictor Variable Selection in Distribution Models |
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12 | (2) |
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What to Do With Sparse Datasets? |
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14 | (5) |
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Incorporating Spatial Information Into Models |
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19 | (2) |
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Model Selection and Multi-Model Inference |
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21 | (9) |
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30 | (8) |
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33 | (1) |
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33 | (5) |
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Global Environmental Data for Mapping Infectious Disease Distribution |
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38 | (1) |
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38 | (1) |
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39 | (10) |
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Temporal Fourier Analysis (TFA) |
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49 | (8) |
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Future Global Environmental Data |
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57 | (13) |
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70 | (10) |
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70 | (1) |
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71 | (9) |
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Issues of Scale and Uncertainty in the Global Remote Sensing of Disease |
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80 | (1) |
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80 | (6) |
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Issues of Scale and Spatial Resolution |
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86 | (10) |
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96 | (11) |
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107 | (13) |
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108 | (1) |
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108 | (12) |
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Determining Global Population Distribution: Methods, Applications and Data |
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120 | (1) |
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120 | (4) |
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124 | (9) |
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133 | (5) |
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138 | (6) |
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144 | (4) |
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148 | (10) |
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151 | (1) |
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151 | (6) |
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Defining the Global Spatial Limits of Malaria Transmission in 2005 |
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157 | (1) |
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158 | (1) |
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The Distribution of Malaria Risk from Travel Guidelines |
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159 | (2) |
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The Biological Limits of Transmission |
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161 | (8) |
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Distinguishing P. falciparum and P. vivax risk |
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169 | (1) |
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169 | (4) |
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173 | (1) |
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174 | (8) |
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175 | (1) |
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175 | (7) |
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The Global Distribution of Yellow Fever and Dengue |
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182 | (1) |
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182 | (1) |
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183 | (10) |
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193 | (7) |
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200 | (8) |
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208 | (1) |
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209 | (13) |
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210 | (1) |
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211 | (10) |
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Global Epidemiology, Ecology and Control of Soil-Transmitted Helminth Infections |
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221 | (1) |
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222 | (2) |
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Transmission Dynamics and the Environment |
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224 | (3) |
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227 | (4) |
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231 | (1) |
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232 | (2) |
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Global Control Strategies |
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234 | (3) |
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Control Applications of GIS/RS |
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237 | (6) |
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243 | (3) |
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Predicted Numbers of Infections |
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246 | (4) |
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250 | (14) |
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252 | (1) |
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252 | (11) |
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Tick-borne Disease Systems: Mapping Geographic and Phylogenetic Space |
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263 | (1) |
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Predicting Changing Risk of Infection on Evolutionary Time Scales |
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264 | (3) |
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The Evolutionary Time Scale for Vector-Borne Flaviviruses |
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267 | (2) |
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Correlates of Phylogenetic Patterns |
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269 | (7) |
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Testing the Role of Climate in the Evolution of Tick-borne Flaviviruses |
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276 | (18) |
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285 | (1) |
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285 | (9) |
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Global Transport Networks and Infectious Disease Spread |
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294 | (1) |
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294 | (1) |
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Global Transport Networks and Pandemics |
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295 | (11) |
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Global Transport Networks and Disease Vector Invasions |
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306 | (13) |
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Global Transport Networks and Vector-borne Diseases |
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319 | (13) |
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332 | (14) |
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332 | (1) |
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333 | (13) |
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Climate Change and Vector-Borne Diseases |
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346 | (1) |
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The Mathematics and Biology of Changes in Vector-Borne Diseases |
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346 | (5) |
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Defining the Criteria for Claiming Climate Impacts on Vector-Borne Diseases |
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351 | (2) |
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Models for Climate Change Impacts on Vector-Borne Diseases |
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353 | (2) |
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Biological and Statistical Approaches to Vector-Borne Disease Futures |
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355 | (11) |
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Recent Changes in Vector-Borne Diseases: Has Climate Change Already had an Impact? |
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366 | (10) |
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376 | (7) |
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377 | (1) |
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377 | (6) |
| Index |
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383 | (8) |
| Contents of Volumes in This Series |
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391 | |
Lisainfo e-raamatute kohta