Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/infectious-diseases-and-our-planet-infectious-diseases-and-our-planet-hkQWLo44N5
References (17)
-
M. Teboh-Ewungkem, G. Ngwa, Mary Fomboh-Nforba (2020)
A Multistage Mosquito-Centred Mathematical Model for Malaria Dynamics that Captures Mosquito Gonotrophic Cycle Contributions to Its Population Abundance and Malaria Transmission -
Mia Moore, M. Boily, Deborah Donnell, D. Dimitrov (2020)
Reducing the Global HIV Burden: The Importance of Uneven Exposure to the Results of HIV Prevention Trials -
F. Agusto, M. Teboh-Ewungkem, A. Gumel (2015)
Mathematical assessment of the effect of traditional beliefs and customs on the transmission dynamics of the 2014 Ebola outbreaksBMC Medicine, 13
-
Kaniz Nipa, L. Allen (2020)
The Effect of Demographic Variability and Periodic Fluctuations on Disease Outbreaks in a Vector–Host Epidemic Model -
M. Gray, James Lewis, P. Nanjappa, Blake Klocke, F. Pasmans, A. Martel, C. Stephen, Gabriela Olea, S. Smith, A. Sacerdote-Velat, Michelle Christman, Jennifer Williams, D. Olson (2015)
Batrachochytrium salamandrivorans: The North American Response and a Call for ActionPLoS Pathogens, 11
-
M. Chapwanya, Y. Dumont (2019)
Application of Mathematical Epidemiology to Crop Vector-Borne Diseases: The Cassava Mosaic Virus Disease CaseInfectious Diseases and Our Planet
-
G. Ngwa, M. Teboh-Ewungkem (2016)
A Mathematical Model with Quarantine States for the Dynamics of Ebola Virus Disease in Human PopulationsComputational and Mathematical Methods in Medicine, 2016
-
G. Ngwa (2006)
On the Population Dynamics of the Malaria VectorBulletin of Mathematical Biology, 68
-
R. Islam, M. Gray, A. Peace (2020)
Identifying the Dominant Transmission Pathway in a Multi-stage Infection Model of the Emerging Fungal Pathogen Batrachochytrium Salamandrivorans on the Eastern Newt -
K. Schneider (2020)
Charles Darwin Meets Ronald Ross: A Population-Genetic Framework for the Evolutionary Dynamics of Malaria -
Gershom Buri, G. Zelleke, W. Ndifon (2017)
Dynamic Regulation of T Cell Activation by Coupled Feedforward LoopsInfectious Diseases and Our Planet
-
G. Ngwa, W. Woldegerima, M. Teboh-Ewungkem (2020)
A MATHEMATICAL STUDY OF THE IMPLICIT ROLE OF INNATE AND ADAPTIVE IMMUNE RESPONSES ON WITHIN-HUMAN PLASMODIUM FALCIPARUM PARASITE LEVELSJournal of Biological Systems, 28
-
G. Ngwa, Terence Wankah, Mary Fomboh-Nforba, Calsitus Ngonghala, M. Teboh-Ewungkem (2014)
On a Reproductive Stage-Structured Model for the Population Dynamics of the Malaria VectorBulletin of Mathematical Biology, 76
-
Siewe Nourridine, M. Teboh-Ewungkem, G. Ngwa (2011)
A mathematical model of the population dynamics of disease-transmitting vectors with spatial considerationJournal of Biological Dynamics, 5
-
Erick Oduniyi, B. Gibbons, Myung-Ho Oh, F. Agusto (2020)
Modeling Ebola Transmission Dynamics with Media Effects on Disease and Isolation Rates -
Benjamin Levy, S. Lenhart, Charles Collins, William Stiver (2020)
Evidence for Multiple Transmission Routes for Pseudorabies in Wild Hogs -
FB Agusto (2015)
96BMC Med., 13
- Publisher
- Springer International Publishing
- Copyright
- © Springer Nature Switzerland AG 2021
- ISBN
- 978-3-030-50825-8
- Pages
- 1 –13
- DOI
- 10.1007/978-3-030-50826-5_1
- Publisher site
- See Chapter on Publisher Site
Abstract
[Our Planet is very rich and diverse with plants and animals co-existing and interacting among themselves, with each other and with other organisms. This co-existence occurs in an environment that allows for such. While such interactions may not benefit some animals, they have served as vital pathways for some diseases to thrive, like in the case of vector-borne or indirectly transmitted diseases. Changes in the environment, be it man made or natural, have increasingly played a role in allowing some of the disease causing pathogens to thrive and this has significant impact on the health status of our planet. Dying workforce reduce economic potential; diseased plants affect life sustenance in some affected areas, and diseased and dying animals impact the plants ecosystems, which could be good but also can be quite detrimental. When there is a shift in the natural ecosystems of animals, especially if those animals serve as vectors that can transmit diseases, then the resulting outcomes may result in undesirable circumstances. Here, we seek to understand different infectious diseases of animals and plants as well as the mechanisms and factors that allow for these pathogens to succeed, seeking ways to understand areas which can be exploited for control. The diseases studied are malaria, Ebola, cassava mosaic diseases, HIV/AIDS and Batrachochytrium salamandrivorans (Bsal); an emerging fungal pathogen.]
Published: Aug 6, 2020
Keywords: Planet; Environment; Disease pathogens; Reproductive gains; Disease vectors; Immune response; Mutations