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Investigating the effects of environmental variables on martial eagle breeding performance in the Kruger National Park MSC Data for analysis.xlsx (47.39 kB)
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Investigating the effects of environmental variables on martial eagle breeding performance in the Kruger National Park MSC New 30 year.xlsx (136.16 kB)
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Investigating the effects of environmental variables on martial eagle breeding performance in the Kruger National Park MSC Metadata.xlsx (363.44 kB)
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Investigating the effects of environmental variables on martial eagle breeding performance in the Kruger National Park - MSC Data.

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posted on 2020-01-08, 11:11 authored by Daryl Van Der MerweDaryl Van Der Merwe, Megan Murgatroyd, Arjun AmarArjun Amar

Within South Africa martial eagles reporting rates have decreased by almost 60% over the last 2 decades. Similar declines have also been reported within Kruger National Park (KNP), which is regarded as a stronghold for this species. Declines within KNP have been attributed to the low productivity rates. As apex predators, marital eagles are considered to be good indicators of ecosystem health, being sensitive to the cumulative effects of disturbance down the food chain. Changes in the breeding performance of martial eagles may therefore indicate broader environmental change within the ecosystem. In this study, we aim to explore which environmental variables (e.g. climate, land cover, tree cover, fire and elephant abundance) within each territory correlated with martial eagle breeding performance in the hope that we may better understand which variables affect martial eagles breeding performance and whether these may have changed over time to cause the low levels of fecundity presently seen within KNP. We found that breeding productivity (young per territorial pair) was positively influenced by higher precipitation and Normalized Difference Vegetation Index (NDVI) and negatively impacted by high temperatures during the previous year. Breeding rate (breeding attempt per territorial pair) appeared to be negatively influenced by higher tree cover within 6km of the nest site. Nesting success (outcome of a breeding attempt) was correlated with higher NDVI and lower relative levels of precipitation during the previous year. Using longer term climatic data and the relationship between climate in the previous year and productivity, (the variable which directly relates to annual fecundity), we hindcast the predicted productivity over the last 3 decades (2018-1986) to explore whether change in climate conditions (precipitation, temperature and NDVI) might reveal declines in productivity. No such declines were predicted, thus, our results do not explain why productivity has declined within KNP.

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Biological Sciences