Additional file 5: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Additional file 4: Table S4. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Description of environmental variables utilized in simulations of future scenarios of the niche mode...

Additional file 2: of Ecological niche modeling of Aedes mosquito vectors of chikungunya virus in southeastern Senegal

Rebecca Richman (5123438)
Diawo Diallo (319546)
Mawlouth Diallo (116188)
Amadou Sall (155633)
Oumar Faye (32488)
Cheikh Diagne (3541418)
Ibrahima Dia (37449)
Scott Weaver (847774)
Kathryn Hanley (4406743)
Michaela Buenemann (319548)

April 2018

Maxent response curves for the mosquito habitat suitability models. A compilation of figures that sh...

Additional file 3: Table S3. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Description of environmental variables utilized in the niche modelling of P. falciparum and Anophele...

Additional file 4: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Response curves of An. nuneztovari model to: (A) Elevation (srtm); (B) Temperature seasonality (bio ...

Additional file 3: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Response curves of Malaria model to: (A) Elevation (srtm); (B) Precipitation of the driest quarter (...

Additional file 6: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Analysis of gains and losses in area between 2050 and 2070 models. From left to right: Malaria (NASA...

Additional file 1: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Differences in annual precipitation between current and future conditions. NASA 2050 (top left), 207...

Additional file 2: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Projected LULC changes obtained using LCM: 2010 (top panel), 2050 (middle panel), and 2070 (bottom p...

Additional file 7: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Cross-tabulation of present and future distribution to show likely shifts in Malaria habitat suitabi...

Additional file 8: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Cross-tabulation of present and future distribution to show likely shifts in An. nuneztovari s.l. ha...

Additional file 5: Figure S10. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Environmental variables (bioclimatic data, topographic and terrestrial biomes) under global climate ...

Additional file 2: Figure S9. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Environmental predictors (bioclimatic data, elevation and terrestrial biomes) under contemporary con...

Additional file 7: Table S5. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Relative contribution (%) of environmental variables to predicted values in the MaxEnt algorithm and...

Additional file 5: of Predicting the geographical distributions of the macaque hosts and mosquito vectors of Plasmodium knowlesi malaria in forested and non-forested areas

Catherine Moyes (3372485)
Freya Shearer (2139793)
Zhi Huang (639018)
Antoinette Wiebe (752570)
Harry Gibson (3517616)
Vincent Nijman (243957)
Jayasilan Mohd-Azlan (3517625)
Jedediah Brodie (3517622)
Suchinda Malaivijitnond (446966)
Matthew Linkie (216364)
Hiromitsu Samejima (368757)
Timothy OâBrien (3512114)
Colin Trainor (3517619)
Yuzuru Hamada (3517613)
Anthony Giordano (1999465)
Margaret Kinnaird (814838)
Iqbal Elyazar (699635)
Marianne Sinka (3491441)
Indra Vythilingam (118657)
Michael Bangs (3517610)
David Pigott (639019)
Daniel Weiss (513464)
Nick Golding (442000)
Simon Hay (639021)

April 2016

The 0.025 and 0.975 quantile model predictions, and the top predictors, for each mosquito model. For...

Additional file 6: Figure S11. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Environmental variables (bioclimatic data, topographic and terrestrial biomes) under global climate ...

Additional file 4: Table S4. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Description of environmental variables utilized in simulations of future scenarios of the niche mode...

Additional file 2: of Ecological niche modeling of Aedes mosquito vectors of chikungunya virus in southeastern Senegal

Rebecca Richman (5123438)
Diawo Diallo (319546)
Mawlouth Diallo (116188)
Amadou Sall (155633)
Oumar Faye (32488)
Cheikh Diagne (3541418)
Ibrahima Dia (37449)
Scott Weaver (847774)
Kathryn Hanley (4406743)
Michaela Buenemann (319548)

April 2018

Maxent response curves for the mosquito habitat suitability models. A compilation of figures that sh...

Additional file 3: Table S3. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Description of environmental variables utilized in the niche modelling of P. falciparum and Anophele...

Additional file 4: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Response curves of An. nuneztovari model to: (A) Elevation (srtm); (B) Temperature seasonality (bio ...

Additional file 3: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Response curves of Malaria model to: (A) Elevation (srtm); (B) Precipitation of the driest quarter (...

Additional file 6: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Analysis of gains and losses in area between 2050 and 2070 models. From left to right: Malaria (NASA...

Additional file 1: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Differences in annual precipitation between current and future conditions. NASA 2050 (top left), 207...

Additional file 2: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Projected LULC changes obtained using LCM: 2010 (top panel), 2050 (middle panel), and 2070 (bottom p...

Additional file 7: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Cross-tabulation of present and future distribution to show likely shifts in Malaria habitat suitabi...

Additional file 8: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Temitope Alimi (3530042)
Douglas Fuller (3530039)
Whitney Qualls (3530036)
Socrates Herrera (238888)
Myriam Arevalo-Herrera (232093)
Martha Quinones (3530033)
Marcus Lacerda (742724)
John Beier (4490)

August 2015

Cross-tabulation of present and future distribution to show likely shifts in An. nuneztovari s.l. ha...

Additional file 5: Figure S10. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Environmental variables (bioclimatic data, topographic and terrestrial biomes) under global climate ...

Additional file 2: Figure S9. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Environmental predictors (bioclimatic data, elevation and terrestrial biomes) under contemporary con...

Additional file 7: Table S5. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Relative contribution (%) of environmental variables to predicted values in the MaxEnt algorithm and...

Additional file 5: of Predicting the geographical distributions of the macaque hosts and mosquito vectors of Plasmodium knowlesi malaria in forested and non-forested areas

Catherine Moyes (3372485)
Freya Shearer (2139793)
Zhi Huang (639018)
Antoinette Wiebe (752570)
Harry Gibson (3517616)
Vincent Nijman (243957)
Jayasilan Mohd-Azlan (3517625)
Jedediah Brodie (3517622)
Suchinda Malaivijitnond (446966)
Matthew Linkie (216364)
Hiromitsu Samejima (368757)
Timothy OâBrien (3512114)
Colin Trainor (3517619)
Yuzuru Hamada (3517613)
Anthony Giordano (1999465)
Margaret Kinnaird (814838)
Iqbal Elyazar (699635)
Marianne Sinka (3491441)
Indra Vythilingam (118657)
Michael Bangs (3517610)
David Pigott (639019)
Daniel Weiss (513464)
Nick Golding (442000)
Simon Hay (639021)

April 2016

The 0.025 and 0.975 quantile model predictions, and the top predictors, for each mosquito model. For...

Additional file 6: Figure S11. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Environmental variables (bioclimatic data, topographic and terrestrial biomes) under global climate ...

Additional file 4: Table S4. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Description of environmental variables utilized in simulations of future scenarios of the niche mode...

Additional file 2: of Ecological niche modeling of Aedes mosquito vectors of chikungunya virus in southeastern Senegal

Rebecca Richman (5123438)
Diawo Diallo (319546)
Mawlouth Diallo (116188)
Amadou Sall (155633)
Oumar Faye (32488)
Cheikh Diagne (3541418)
Ibrahima Dia (37449)
Scott Weaver (847774)
Kathryn Hanley (4406743)
Michaela Buenemann (319548)

April 2018

Maxent response curves for the mosquito habitat suitability models. A compilation of figures that sh...

Additional file 3: Table S3. of Malaria vectors in South America: current and future scenarios

Gabriel Laporta (3483605)
Yvonne-Marie Linton (777316)
Richard Wilkerson (3483614)
Eduardo Bergo (3452357)
Sandra Nagaki (3483611)
Denise Sant’Ana (3483623)
Maria Sallum (3452348)

August 2015

Description of environmental variables utilized in the niche modelling of P. falciparum and Anophele...

Additional file 5: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Abstract

Extracted data

Additional file 5: of Predicting potential ranges of primary malaria vectors and malaria in northern South America based on projected changes in climate, land cover and human population

Abstract

Extracted data

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