REGRESSION ANALYSIS AND GIS METHODS FOR ASSESSMENT OF THE PLAGUE EPIZOOTIC ACTIVITY OF KAZAKH NATURAL PLAGUE FOCI

REGRESSION ANALYSIS AND GIS METHODS FOR ASSESSMENT OF THE PLAGUE EPIZOOTIC ACTIVITY OF KAZAKH NATURAL PLAGUE FOCI

The plague natural foci of Kazakhstan are a complicated system of relations between the plague microbe, warm-blood host and vector. The complex approaches used for study of the processes of the plague epizooty and prognosis it. Use of computerized programs with the classic methods of study helps to...

Full description

Bibliographic Details
Main Authors: N. .. Niyazbekov, Z. .. Abdeliyev, Z. .. Sagiyev, A. .. Matzhanova, A. .. Abdrazakova, B. .. Aysauytov, M. .. Balibayev, N. .. Toksanbayeva, Sh. .. Ibrayeva, A. .. Yermakhanov, M. .. Burambayeva, S. .. Zhadyrassyn, B. .. Aimakhanov, L. .. Kupteleuova, K. .. Akmambetova
Format: Article
Language:Russian
Published: Scientific Сentre for Family Health and Human Reproduction Problems 2014-04-01
Series:Acta Biomedica Scientifica
Subjects:
plague
natural focus
vectors
great gerbil
epizooty
gis
regression analysis
landscape and epizootology region
Online Access:https://www.actabiomedica.ru/jour/article/view/1743
_version_ 1826853477619335168
author N. .. Niyazbekov
Z. .. Abdeliyev
Z. .. Sagiyev
A. .. Matzhanova
A. .. Abdrazakova
B. .. Aysauytov
M. .. Balibayev
N. .. Toksanbayeva
Sh. .. Ibrayeva
A. .. Yermakhanov
M. .. Burambayeva
S. .. Zhadyrassyn
B. .. Aimakhanov
L. .. Kupteleuova
K. .. Akmambetova
author_facet N. .. Niyazbekov
Z. .. Abdeliyev
Z. .. Sagiyev
A. .. Matzhanova
A. .. Abdrazakova
B. .. Aysauytov
M. .. Balibayev
N. .. Toksanbayeva
Sh. .. Ibrayeva
A. .. Yermakhanov
M. .. Burambayeva
S. .. Zhadyrassyn
B. .. Aimakhanov
L. .. Kupteleuova
K. .. Akmambetova
author_sort N. .. Niyazbekov
collection DOAJ
description The plague natural foci of Kazakhstan are a complicated system of relations between the plague microbe, warm-blood host and vector. The complex approaches used for study of the processes of the plague epizooty and prognosis it. Use of computerized programs with the classic methods of study helps to process the data in time and space. For epidemiological and epizootological analysis the passport data of the strains Y. pestis isolated by Zhosaly Anti-plague Station of the Republic of Kazakhstan in 1990-2012 were processed. The Anti-plague Station carries out the epizootic study of the landscape and epizootology regions as the North Qizilqum, East Karakum, and West part of Aryskum-Dariyalyktakyr. From 1990 to 2012 there were 295 plague strains isolated, 57 % of them were isolated from rodents, and 49,3 % of them were isolated from vectors (ticks and fleas). The passport data for 1990-2011 of three mentioned above landscape and epizootology regions were processed by STATA 12 program; and the regression models of the North Qizilqum and East Karakum were created. The model shows that the plague epizooty activity has been declining by the years. The second model shows that the plague activity in the North Qizilqum has been increasing by the years. Also the passport data of the strains Y. pestis isolated in two natural plague foci of Central Asia desert plague focus as Qizilqum and Aryskum-Dariyalyktakyr natural foci were processed by ArcGIS 10. The regression analysis and modeling in ArcGIS 10 give the opportunities for carrying out of spatial and temporal characteristics of conditions of epizootic activities of the natural plague foci, for detection more possible regions where people livestock as camels can be infected with plague and for prevention of infection of people during their activities. Application of this analysis in the complex of epizootic and epidemiological analysis gives the possibility to prognosis of possible plague epidemic complications and make remote prognosis for carrying out of the prophylaxis measurements under the influences of anthropogenic transformation of the foci, social and climatic factors and can help to survey the foci and protect the population who live there. Use of the regression analysis in the epidemiological and epizootological monitoring of the plague in the natural plague foci can help to prognosis the dynamics of the plague epizooty in the foci and detect a correlation between the microbe, vector, and host of the plague.
first_indexed 2024-03-08T12:20:10Z
format Article
id doaj.art-9de38e9ca23045688b996f3d9ee4bcf7
institution Directory Open Access Journal
issn 2541-9420
2587-9596
language Russian
last_indexed 2025-02-16T17:27:37Z
publishDate 2014-04-01
publisher Scientific Сentre for Family Health and Human Reproduction Problems
record_format Article
series Acta Biomedica Scientifica
spelling doaj.art-9de38e9ca23045688b996f3d9ee4bcf72025-01-27T16:48:46ZrusScientific Сentre for Family Health and Human Reproduction ProblemsActa Biomedica Scientifica2541-94202587-95962014-04-010277821689REGRESSION ANALYSIS AND GIS METHODS FOR ASSESSMENT OF THE PLAGUE EPIZOOTIC ACTIVITY OF KAZAKH NATURAL PLAGUE FOCIN. .. Niyazbekov0Z. .. Abdeliyev1Z. .. Sagiyev2A. .. Matzhanova3A. .. Abdrazakova4B. .. Aysauytov5M. .. Balibayev6N. .. Toksanbayeva7Sh. .. Ibrayeva8A. .. Yermakhanov9M. .. Burambayeva10S. .. Zhadyrassyn11B. .. Aimakhanov12L. .. Kupteleuova13K. .. Akmambetova14M. Aikimbayev’s Kazakh Scientific Center of Quarantine and Zoonotic DiseasesM. Aikimbayev’s Kazakh Scientific Center of Quarantine and Zoonotic DiseasesM. Aikimbayev’s Kazakh Scientific Center of Quarantine and Zoonotic DiseasesQyzylorda Anti-Plague StationQyzylorda Anti-Plague StationQyzylorda Anti-Plague StationQyzylorda Anti-Plague StationQyzylorda Anti-Plague StationQyzylorda Anti-Plague StationQyzylorda Anti-Plague StationAral Anti-Plague StationAral Anti-Plague StationM. Aikimbayev’s Kazakh Scientific Center of Quarantine and Zoonotic DiseasesQyzylorda Anti-Plague StationQyzylorda Anti-Plague StationThe plague natural foci of Kazakhstan are a complicated system of relations between the plague microbe, warm-blood host and vector. The complex approaches used for study of the processes of the plague epizooty and prognosis it. Use of computerized programs with the classic methods of study helps to process the data in time and space. For epidemiological and epizootological analysis the passport data of the strains Y. pestis isolated by Zhosaly Anti-plague Station of the Republic of Kazakhstan in 1990-2012 were processed. The Anti-plague Station carries out the epizootic study of the landscape and epizootology regions as the North Qizilqum, East Karakum, and West part of Aryskum-Dariyalyktakyr. From 1990 to 2012 there were 295 plague strains isolated, 57 % of them were isolated from rodents, and 49,3 % of them were isolated from vectors (ticks and fleas). The passport data for 1990-2011 of three mentioned above landscape and epizootology regions were processed by STATA 12 program; and the regression models of the North Qizilqum and East Karakum were created. The model shows that the plague epizooty activity has been declining by the years. The second model shows that the plague activity in the North Qizilqum has been increasing by the years. Also the passport data of the strains Y. pestis isolated in two natural plague foci of Central Asia desert plague focus as Qizilqum and Aryskum-Dariyalyktakyr natural foci were processed by ArcGIS 10. The regression analysis and modeling in ArcGIS 10 give the opportunities for carrying out of spatial and temporal characteristics of conditions of epizootic activities of the natural plague foci, for detection more possible regions where people livestock as camels can be infected with plague and for prevention of infection of people during their activities. Application of this analysis in the complex of epizootic and epidemiological analysis gives the possibility to prognosis of possible plague epidemic complications and make remote prognosis for carrying out of the prophylaxis measurements under the influences of anthropogenic transformation of the foci, social and climatic factors and can help to survey the foci and protect the population who live there. Use of the regression analysis in the epidemiological and epizootological monitoring of the plague in the natural plague foci can help to prognosis the dynamics of the plague epizooty in the foci and detect a correlation between the microbe, vector, and host of the plague.https://www.actabiomedica.ru/jour/article/view/1743plaguenatural focusvectorsgreat gerbilepizootygisregression analysislandscape and epizootology region
spellingShingle N. .. Niyazbekov
Z. .. Abdeliyev
Z. .. Sagiyev
A. .. Matzhanova
A. .. Abdrazakova
B. .. Aysauytov
M. .. Balibayev
N. .. Toksanbayeva
Sh. .. Ibrayeva
A. .. Yermakhanov
M. .. Burambayeva
S. .. Zhadyrassyn
B. .. Aimakhanov
L. .. Kupteleuova
K. .. Akmambetova
REGRESSION ANALYSIS AND GIS METHODS FOR ASSESSMENT OF THE PLAGUE EPIZOOTIC ACTIVITY OF KAZAKH NATURAL PLAGUE FOCI
Acta Biomedica Scientifica
plague
natural focus
vectors
great gerbil
epizooty
gis
regression analysis
landscape and epizootology region
title REGRESSION ANALYSIS AND GIS METHODS FOR ASSESSMENT OF THE PLAGUE EPIZOOTIC ACTIVITY OF KAZAKH NATURAL PLAGUE FOCI
title_full REGRESSION ANALYSIS AND GIS METHODS FOR ASSESSMENT OF THE PLAGUE EPIZOOTIC ACTIVITY OF KAZAKH NATURAL PLAGUE FOCI
title_fullStr REGRESSION ANALYSIS AND GIS METHODS FOR ASSESSMENT OF THE PLAGUE EPIZOOTIC ACTIVITY OF KAZAKH NATURAL PLAGUE FOCI
title_full_unstemmed REGRESSION ANALYSIS AND GIS METHODS FOR ASSESSMENT OF THE PLAGUE EPIZOOTIC ACTIVITY OF KAZAKH NATURAL PLAGUE FOCI
title_short REGRESSION ANALYSIS AND GIS METHODS FOR ASSESSMENT OF THE PLAGUE EPIZOOTIC ACTIVITY OF KAZAKH NATURAL PLAGUE FOCI
title_sort regression analysis and gis methods for assessment of the plague epizootic activity of kazakh natural plague foci
topic plague
natural focus
vectors
great gerbil
epizooty
gis
regression analysis
landscape and epizootology region
url https://www.actabiomedica.ru/jour/article/view/1743
work_keys_str_mv AT nniyazbekov regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT zabdeliyev regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT zsagiyev regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT amatzhanova regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT aabdrazakova regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT baysauytov regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT mbalibayev regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT ntoksanbayeva regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT shibrayeva regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT ayermakhanov regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT mburambayeva regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT szhadyrassyn regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT baimakhanov regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT lkupteleuova regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci
AT kakmambetova regressionanalysisandgismethodsforassessmentoftheplagueepizooticactivityofkazakhnaturalplaguefoci

Similar Items