Philipps-Universität Marburg

The Philipp University of Marburg (German: Philipps-Universität Marburg), was founded in 1527 by Landgrave Philip I of Hesse(usually called the Magnanimous, although the updated meaning 'haughty' is sometimes given) as one of Germany's oldest universities, dating back to a Protestant foundation. As a state university it has no religious affiliation anymore. It was the main university of the principality of Hesse and remains a public university of that German state. It now has about 25,000 students and 7,500 employees, making Marburg, a town of 72,000 inhabitants, the proverbial "university town" (Universitätsstadt). Though most subjects are grouped, the University of Marburg is not a campus university in the broader sense. About 12% of the students are international, the highest percentage in Hesse.[1] It offers an International summer university programme every summer and has an awarded ERASMUS programme.

https://www.uni-marburg.de/en

Marine and Wind Energy Environmental Documents

Title	Author	Date	Content Type	Technology	Stressor	Receptor
Increasing the cut-in wind speeds of wind turbines can contribute to more effective species protection	Becker, M., Spatz, T., Rösner, S.	September 2024	Journal Article	Wind Energy, Land-Based Wind	Collision	Birds
Forest bat activity declines with increasing wind speed in proximity of operating wind turbines	Ellerbrok, J., Farwig, N., Peter, F.	January 2024	Journal Article	Wind Energy, Land-Based Wind	Avoidance, Noise	Bats
Die Auswirkungen von Windenergieanlagen an Waldstandorten auf Fledermäuse	Voigt, C., Scholz, C., Ellerbrok, J.	January 2024	Journal Article	Wind Energy, Land-Based Wind	Collision	Bats
Acoustic bat activity at wind turbines in temperate forests - Avoidance patterns and potential causes	Ellerbrok, J.	June 2023	Thesis	Wind Energy		Bats, Human Dimensions
Wind turbines in managed forests partially displace common birds	Rehling, F., Delius, A., Ellerbrok, J.	February 2023	Journal Article	Wind Energy, Land-Based Wind	Displacement	Birds, Passerines, Raptors
A utilization distribution for the global population of Cape Vultures (Gyps coprotheres) to guide wind energy development	Cervantes, F., Murgatroyd, M., Allan, D.	January 2023	Journal Article	Wind Energy, Land-Based Wind	Collision	Birds, Raptors
Activity of forest specialist bats decreases towards wind turbines at forest sites	Ellerbrok, J., Delius, A., Peter, F.	July 2022	Journal Article	Wind Energy, Land-Based Wind	Avoidance	Bats
Sex- but not age-biased wind turbine collision mortality in the White-tailed Eagle Haliaeetus albicilla	Heuck, C., Herrmann, C., Wendt, J.	July 2020	Journal Article	Wind Energy, Land-Based Wind	Collision	Birds, Raptors
Wind turbines in high quality habitat cause disproportionate increases in collision mortality of the white-tailed eagle	Heuck, C., Herrmann, C., Levers, C.	August 2019	Journal Article	Wind Energy, Land-Based Wind	Collision	Raptors, Birds
From Ground to Above Canopy - Bat Activity in Mature Forests is Driven by Vegetation Density and Height	Muller, J., Brandl, R., Buchner, J.	October 2013	Journal Article	Wind Energy, Land-Based Wind	Habitat Change	Birds
The Potential Distribution of the Red Kite in Germany	Heuck, C., Brandl, R., Albrecht, J.	May 2013	Journal Article	Wind Energy, Land-Based Wind	Habitat Change	Birds