Globally, human activities have a significant impact on the diversity, abundance, and distribution of large mammals in Protected Areas (PAs). These disturbances increase human pressure on biodiversity and species habi...Globally, human activities have a significant impact on the diversity, abundance, and distribution of large mammals in Protected Areas (PAs). These disturbances increase human pressure on biodiversity and species habitats, highlighting the need for conservation. This study aimed to assess the abundance and distribution of large mammals in different habitat types within Nimule National Park (NNP) and understand the impacts of human activities on them. Data on the abundance and distribution of large mammals and their respective habitat types were collected through line transect surveys. Human activity signs were observed and recorded along the transect lines. To estimate the impacts of human activities on the diversity, abundance, and distribution of large mammal species, as well as to identify any significant differences between them and their habitat types, the study utilized the Kruskal Wallis test, Polynomial multiple regressions, and diversity indices. The findings from the Shannon-Weiner and Simpson indices indicated that large mammal species were more diverse inside the park (H’ = 1.136;D = 0.570) compared to the buffer zone (H’ = 0.413;D = 0.171), with 85% (443 out of 510 samples) recorded within Nimule National Park. The species abundance showed a semi-balanced status (0.58). The diversity results among different habitat types revealed that large mammals were more diverse and highly distributed in both open woodlands (244) and dense woodlands (192), while riverine vegetation had the lowest diversity (8). Statistical tests demonstrated a highly significant difference at a 99% confidence interval (p-value = 0.01) between habitat types and identified species of large mammals. Additionally, the results highlighted the high abundance of Uganda kob (274), baboons (141), and warthog (57) across most habitat types, accounting for at least 75% of their distribution. The most prevalent human activities observed were cattle footprints (27%) and cattle dung (14%). Human footprints and tree cutting combined accounted for 9%, indicating the practice of livestock grazing, poaching, encroachment, and fuelwood collection by local communities. However, these activities did not appear to significantly impact the diversity, abundance, and distribution of large mammals in Nimule National Park. Therefore, it is crucial to foster shared responsibilities and engage relevant stakeholders in the management and conservation of large wildlife species. Regular community awareness programs should be implemented to cultivate a sense of ownership. Moreover, it is recommended that a comprehensive survey be conducted on the population status of all mammal species in Nimule National Park, including its surrounding Buffer Zone. Monitoring the impact of human activities on their behavior and habitats using satellite images should also be carried out at least every five to ten years.展开更多
Fossil record data on the mammal diversity and species richness are of importance for the reconstruction of the evolution of terrestrial ecosystems during the Late Pleistocene-Holocene transition.In Eastern Europe,the...Fossil record data on the mammal diversity and species richness are of importance for the reconstruction of the evolution of terrestrial ecosystems during the Late Pleistocene-Holocene transition.In Eastern Europe,the transformations during the Pleistocene-Holocene transition consisted mainly in changes in zonal structure and local fauna composition(Markova&Kolfschoten 2008).We investigated the species richness and the analogues of theα,βdiversity indexes(in the sense of Whittaker 1972)of large and medium size mammals for 13 climate-stratigraphic units dating to the Late Pleistocene and the Holocene,from the Hasselo Stadial(44-39 kBP)to the Subatlantic period and the present day.The biological diversity of the Last Glacial Maximum(LGM)and the Holocene thermal optimum was investigated in more detail using information about all mammalian taxa(PALEOFAUNA database;Markova 1995).One of our results show that theα,βdiversity values show only a negative correlation with the temperature conditions during the Late Pleistocene,the period that is characterized by the so-called‘Mammoth Fauna’complex.For the Holocene faunas the diversity indexes are nearly independent from physical conditions;theαdiversity index decreased and theβdiversity index increased.The relatively lowαdiversity and highβdiversity indexes for the present-day faunas are referred to the decrease of the population number of some forest species in historical time and the increase of the dominance of unspecialized species or the species connected with intra-zonal ecosystems.The study shows furthermore the occurrence of several East European‘centers’with a high mammal diversity,which are relatively stable during the Pleistocene-Holocene transition.The orientation of the boundaries between the large geographical mammal assemblages depended,particularly in the northwestern part of Eastern Europe,on the expansion of the Scandinavian ice sheet.展开更多
文摘Globally, human activities have a significant impact on the diversity, abundance, and distribution of large mammals in Protected Areas (PAs). These disturbances increase human pressure on biodiversity and species habitats, highlighting the need for conservation. This study aimed to assess the abundance and distribution of large mammals in different habitat types within Nimule National Park (NNP) and understand the impacts of human activities on them. Data on the abundance and distribution of large mammals and their respective habitat types were collected through line transect surveys. Human activity signs were observed and recorded along the transect lines. To estimate the impacts of human activities on the diversity, abundance, and distribution of large mammal species, as well as to identify any significant differences between them and their habitat types, the study utilized the Kruskal Wallis test, Polynomial multiple regressions, and diversity indices. The findings from the Shannon-Weiner and Simpson indices indicated that large mammal species were more diverse inside the park (H’ = 1.136;D = 0.570) compared to the buffer zone (H’ = 0.413;D = 0.171), with 85% (443 out of 510 samples) recorded within Nimule National Park. The species abundance showed a semi-balanced status (0.58). The diversity results among different habitat types revealed that large mammals were more diverse and highly distributed in both open woodlands (244) and dense woodlands (192), while riverine vegetation had the lowest diversity (8). Statistical tests demonstrated a highly significant difference at a 99% confidence interval (p-value = 0.01) between habitat types and identified species of large mammals. Additionally, the results highlighted the high abundance of Uganda kob (274), baboons (141), and warthog (57) across most habitat types, accounting for at least 75% of their distribution. The most prevalent human activities observed were cattle footprints (27%) and cattle dung (14%). Human footprints and tree cutting combined accounted for 9%, indicating the practice of livestock grazing, poaching, encroachment, and fuelwood collection by local communities. However, these activities did not appear to significantly impact the diversity, abundance, and distribution of large mammals in Nimule National Park. Therefore, it is crucial to foster shared responsibilities and engage relevant stakeholders in the management and conservation of large wildlife species. Regular community awareness programs should be implemented to cultivate a sense of ownership. Moreover, it is recommended that a comprehensive survey be conducted on the population status of all mammal species in Nimule National Park, including its surrounding Buffer Zone. Monitoring the impact of human activities on their behavior and habitats using satellite images should also be carried out at least every five to ten years.
基金The work was performed with the financial support from RFBR(grant№10-05-00111).We would like to thank our reviewers for their very constructive remarks.We are very grateful to Maria Rita Palombo for her suggestion to contribute to this volume.
文摘Fossil record data on the mammal diversity and species richness are of importance for the reconstruction of the evolution of terrestrial ecosystems during the Late Pleistocene-Holocene transition.In Eastern Europe,the transformations during the Pleistocene-Holocene transition consisted mainly in changes in zonal structure and local fauna composition(Markova&Kolfschoten 2008).We investigated the species richness and the analogues of theα,βdiversity indexes(in the sense of Whittaker 1972)of large and medium size mammals for 13 climate-stratigraphic units dating to the Late Pleistocene and the Holocene,from the Hasselo Stadial(44-39 kBP)to the Subatlantic period and the present day.The biological diversity of the Last Glacial Maximum(LGM)and the Holocene thermal optimum was investigated in more detail using information about all mammalian taxa(PALEOFAUNA database;Markova 1995).One of our results show that theα,βdiversity values show only a negative correlation with the temperature conditions during the Late Pleistocene,the period that is characterized by the so-called‘Mammoth Fauna’complex.For the Holocene faunas the diversity indexes are nearly independent from physical conditions;theαdiversity index decreased and theβdiversity index increased.The relatively lowαdiversity and highβdiversity indexes for the present-day faunas are referred to the decrease of the population number of some forest species in historical time and the increase of the dominance of unspecialized species or the species connected with intra-zonal ecosystems.The study shows furthermore the occurrence of several East European‘centers’with a high mammal diversity,which are relatively stable during the Pleistocene-Holocene transition.The orientation of the boundaries between the large geographical mammal assemblages depended,particularly in the northwestern part of Eastern Europe,on the expansion of the Scandinavian ice sheet.
