Albertus S. Louw scite author profile

Climate change is affecting human health worldwide. In particular, changes to local and global climate parameters influence vector and water-borne diseases like malaria, dengue fever, and tick-borne encephalitis. The Republic of Sakha in northern Russia is no exception. Long-term trends of increasing annual temperatures and thawing permafrost have corresponded with the northward range expansion of tick-species in the Republic. Indigenous communities living in these remote areas may be severely affected by human and livestock diseases introduced by disease vectors like ticks. To better understand the risk of vector-borne diseases in Sakha, we aimed to describe the increase and spatial spread of tick-bite cases in the Republic. Between 2000 and 2018, the frequency of tick bite cases increased 40-fold. At the start of the period, only isolated cases were reported in southern districts, but by 2018, tick bites had been reported in 21 districts in the Republic. This trend coincides with a noticeable increase in the average annual temperature in the region since the 2000s by an average of 1 °C. Maps illustrate the northward spread of tick-bite cases. A negative binomial regression model was used to correlate the increase in cases with a number of climate parameters. Tick bite case frequency per district was significantly explained by average annual temperature, average temperature in the coldest month of the year, the observation year, as well as Selyaninov’s hydrothermal coefficient. These findings contribute to the growing literature that describe the relationship between tick abundance and spread in Northern Latitudes and changes in temperatures and moisture. Future studies might use these and similar results to map and identify areas at risk of infestation by ticks, as climates continue to change in Sakha.

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Elephant population responses to increased density in Kruger National Park

Louw

MacFadyen

Ferreira

et al. 2021

KOEDOE - African Protected Area Conservation and Science

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Conservation implications: Density-dependent changes to elephant growth rates are scaledependent (local vs. park level). Only core areas with long-term high density show signs of density-dependent growth. Overall, the distributions of elephants are homogenising in the KNP. Conservation authorities should monitor the impact of such homogenisation to landscape heterogeneity. The spatial variation of the negative density-growth correlation, especially between the core and peripheral zones, can be considered when developing effective strategies to manage the KNP elephant population.

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The role of remote sensing during a global disaster: COVID-19 pandemic as case study

Louw

Raut

et al. 2022

Remote Sensing Applications: Society and Environment

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Post-typhoon forest damage estimation using multiple vegetation indices and machine learning models

Chen¹,

Avtar²,

Umarhadi³

et al. 2022

Weather and Climate Extremes

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Erratum: Elephant population responses to increased density in Kruger National Park

Louw

MacFadyen

Ferreira

et al. 2021

KOEDOE - African Protected Area Conservation and Science

View full text Add to dashboard Cite

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Albertus S. Louw

Quantifying the Northward Spread of Ticks (Ixodida) as Climate Warms in Northern Russia

Elephant population responses to increased density in Kruger National Park

The role of remote sensing during a global disaster: COVID-19 pandemic as case study

Post-typhoon forest damage estimation using multiple vegetation indices and machine learning models

Erratum: Elephant population responses to increased density in Kruger National Park

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