TY  - JOUR
A1  - Sandhage-Hofmann, Alexandra
A1  - Angombe, Simon
A1  - Kindermann, Liana
A1  - Linstädter, Anja
A1  - Mörchen, Ramona
T1  - Conservation with elephants and agricultural intensification
BT  - effects on lignin and n-alkanes in soils of sub-Saharan Africa
JF  - Geoderma : an international journal of soil science
N2  - Nature conservation is currently shaping many terrestrial ecosystems in Africa. 
This is particularly evident in Sub-Saharan Africa (SSA), where conservation is intended to recover wildlife populations, with special focus on elephants. 
Rising numbers of elephants induce woody biomass losses but increase soil organic carbon (SOC) stocks from decaying wood and dung. 
We hypothesized that these increases under wildlife conservation in SSA go along with rising contents of plant residues in SOC, traceable by the molecular markers lignin and n-alkanes. 
In contrast, agricultural intensification would reduce them due to lower C input and faster SOC turnover through tillage. 
To test this, we analyzed lignin by the CuO oxidation method and n-alkanes by fast pressurized solvent extraction in topsoils (0-10 cm) of Arenosols and corresponding plant samples (trees, grasses and crops). 
Sampling sites followed conservation gradients with low, medium and high elephant densities and intensification gradients with rangeland and cropland in the woodland savanna of the Namibian Zambezi Region. 
Patterns of lignin-derived phenols were retained in the soil, whereas n-alkanes showed shifts in chain lengths. n-Alkanes also showed no clear increase or decrease under conservation or intensification, respectively. 

Differently, lignin-derived phenols showed lower values under intensification than under conservation. Confirming our hypothesis, rising SOC contents with rising elephant densities (from 4.4 at low to 5.7 g kg(-1) SOC at high elephant densities) went along with an increasing accumulation of lignin-derived phenols (24.4-34.8 g kg(-1) VSCOC). 
This increase is associated with the input of woody debris to the soil, as indicated by V-units and carbon isotopes, modulated by clay and woody biomass. 
We conclude, that increasing input of woody residues into soil by browsing behaviour of elephants is an important mechanism for controlling SOC supply in the context of wildlife conservation and is traceable with lignin-derived phenols, but not with n-alkanes.
KW  - lignin-derived phenols
KW  - n-alkanes
KW  - soil organic carbon
KW  - wildlife conservation
KW  - agricultural intensification
Y1  - 2022
U6  - https://doi.org/10.1016/j.geoderma.2022.116009
SN  - 0016-7061
SN  - 1872-6259
VL  - 425
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Ostermann-Miyashita, Emu-Felicitas
A1  - König, Hannes J.
A1  - Pernat, Nadja
A1  - Bellingrath-Kimura, Sonoko Dorothea
A1  - Hibler, Sophia
A1  - Kiffner, Christian
T1  - Knowledge of returning wildlife species and willingness to participate in citizen science projects among wildlife park visitors in Germany
JF  - People and nature
N2  - Successful conservation efforts have led to recent increases of large mammals such as European bison Bison bonasus, moose Alces alces and grey wolf Canis lupus and their return to former habitats in central Europe. 
While embraced by some, the recovery of these species is a controversial topic and holds potential for human-wildlife conflicts. 
Involving the public has been suggested to be an effective method for monitoring wildlife and mitigating associated conflicts. 
To assess two interrelated prerequisites for engaging people in Citizen Science (CS)-knowledge of returning species and respondents' readiness to participate in CS activities for monitoring and managing these species-we conducted a survey (questionnaire) in two wildlife parks located in different states of Germany. 
Based on 472 complete questionnaires, we developed generalized linear models to understand how sociodemographic variables and exposure to the species affected visitors' knowledge of each species, and to investigate if sociodemographic variables and knowledge influenced the likelihood of visitors to participate in CS activities. 
Almost all visitors were aware of the returning wolf population, while knowledge and awareness about bison and moose were significantly lower. 
Knowledge of the two herbivores differed geographically (higher knowledge of moose in the north-eastern state), possibly indicating a positive association between exposure to the species and knowledge. 
However, models generally performed poorly in predicting knowledge about wildlife, suggesting that such specific knowledge is insufficiently explained by sociodemographic variables. Our model, which explained stated willingness in CS indicated that younger participants and those with higher knowledge scores in the survey were more willing to engage in CS activities. 
Overall, our analyses highlight how exposure to large mammals, knowledge about wildlife and human demographics are interrelated-insights that are helpful for effectively recruiting citizen scientists for wildlife conservation. 
Read the free Plain Language Summary for this article on the Journal blog.
KW  - environmental awareness
KW  - human-animal relationships
KW  - human-wildlife conflicts
KW  - social-ecological system
KW  - wildlife conservation
KW  - wildlife knowledge
Y1  - 2022
U6  - https://doi.org/10.1002/pan3.10379
SN  - 2575-8314
VL  - 4
IS  - 5
SP  - 1201
EP  - 1215
PB  - British Ecological Society; Wiley
CY  - London; Hoboken, NJ
ER  - 
TY  - GEN
A1  - Hering, Robert
A1  - Hauptfleisch, Morgan
A1  - Kramer-Schadt, Stephanie
A1  - Stiegler, Jonas
A1  - Blaum, Niels
T1  - Effects of fences and fence gaps on the movement behavior of three southern African antelope species
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Globally, migratory ungulates are affected by fences. While field observational studies reveal the amount of animal–fence interactions across taxa, GPS tracking-based studies uncover fence effects on movement patterns and habitat selection. However, studies on the direct effects of fences and fence gaps on movement behavior, especially based on high-frequency tracking data, are scarce. We used GPS tracking on three common African antelopes (Tragelaphus strepsiceros, Antidorcas marsupialis, and T. oryx) with movement strategies ranging from range residency to nomadism in a semi-arid, Namibian savanna traversed by wildlife-proof fences that elephants have regularly breached. We classified major forms of ungulate–fence interaction types on a seasonal and a daily scale. Furthermore, we recorded the distances and times spent at fences regarding the total individual space use. Based on this, we analyzed the direct effects of fences and fence gaps on the animals’ movement behavior for the previously defined types of animal–fence interactions. Antelope-fence interactions peaked during the early hours of the day and during seasonal transitions when the limiting resource changed between water and forage. Major types of ungulate–fence interactions were quick, trace-like, or marked by halts. We found that the amount of time spent at fences was highest for nomadic eland. Migratory springbok adjusted their space use concerning fence gap positions. If the small home ranges of sedentary kudu included a fence, they frequently interacted with this fence. For springbok and eland, distance traveled along a fence declined with increasing utilization of a fence gap. All species reduced their speed in the proximity of a fence but often increased their speed when encountering the fence. Crossing a fence led to increased speeds for all species. We demonstrate that fence effects mainly occur during crucial foraging times (seasonal scale) and during times of directed movements (daily scale). Importantly, we provide evidence that fences directly alter antelope movement behaviors with negative implications for energy budgets and that persistent fence gaps can reduce the intensity of such alterations. Our findings help to guide future animal–fence studies and provide insights for wildlife fencing and fence gap planning.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1308 
KW  - fence ecology
KW  - veterinary cordon fence
KW  - ungulate
KW  - movement speed
KW  - fence interaction
KW  - GPS
KW  - Africa
KW  - wildlife conservation
Y1  - 2023
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-582672
SN  - 1866-8372
IS  - 1308
ER  - 
TY  - JOUR
A1  - Hering, Robert
A1  - Hauptfleisch, Morgan
A1  - Kramer-Schadt, Stephanie
A1  - Stiegler, Jonas
A1  - Blaum, Niels
T1  - Effects of fences and fence gaps on the movement behavior of three southern African antelope species
JF  - Frontiers in Conservation Science
N2  - Globally, migratory ungulates are affected by fences. While field observational studies reveal the amount of animal–fence interactions across taxa, GPS tracking-based studies uncover fence effects on movement patterns and habitat selection. However, studies on the direct effects of fences and fence gaps on movement behavior, especially based on high-frequency tracking data, are scarce. We used GPS tracking on three common African antelopes (Tragelaphus strepsiceros, Antidorcas marsupialis, and T. oryx) with movement strategies ranging from range residency to nomadism in a semi-arid, Namibian savanna traversed by wildlife-proof fences that elephants have regularly breached. We classified major forms of ungulate–fence interaction types on a seasonal and a daily scale. Furthermore, we recorded the distances and times spent at fences regarding the total individual space use. Based on this, we analyzed the direct effects of fences and fence gaps on the animals’ movement behavior for the previously defined types of animal–fence interactions. Antelope-fence interactions peaked during the early hours of the day and during seasonal transitions when the limiting resource changed between water and forage. Major types of ungulate–fence interactions were quick, trace-like, or marked by halts. We found that the amount of time spent at fences was highest for nomadic eland. Migratory springbok adjusted their space use concerning fence gap positions. If the small home ranges of sedentary kudu included a fence, they frequently interacted with this fence. For springbok and eland, distance traveled along a fence declined with increasing utilization of a fence gap. All species reduced their speed in the proximity of a fence but often increased their speed when encountering the fence. Crossing a fence led to increased speeds for all species. We demonstrate that fence effects mainly occur during crucial foraging times (seasonal scale) and during times of directed movements (daily scale). Importantly, we provide evidence that fences directly alter antelope movement behaviors with negative implications for energy budgets and that persistent fence gaps can reduce the intensity of such alterations. Our findings help to guide future animal–fence studies and provide insights for wildlife fencing and fence gap planning.
KW  - fence ecology
KW  - veterinary cordon fence
KW  - ungulate
KW  - movement speed
KW  - fence interaction
KW  - GPS
KW  - Africa
KW  - wildlife conservation
Y1  - 2022
U6  - https://doi.org/10.3389/fcosc.2022.959423
SN  - 2673-611X
VL  - 3
SP  - 1
EP  - 19
PB  - Frontiers
CY  - Lausanne, Schweiz
ER  -