Mirela Beloiu Schwenke: Theses offered
Bachelor's Theses offered | |
Global analysis of tree structure in protected areas
Aims: Forest structure is a key driver of ecosystem diversity. Here we aim to identify forest structure patterns between IUCN protected categories. Study programs: M.Sc. GCE, B.Sc./ M.Sc. Geoökologie, M.Sc. Biodiversity & Ökologie, M.Sc. Environmental Geography Language: English Start: anytime Location: Globally Skills needed: Basic knowledge of R Methods: Modelling, Data Mining Contact: Carl Beierkuhnlein, Mirela Beloiu Schwenke | |
Forest Response to Drought Stress
Aims: Drought episodes are predicted to increase their intensity and frequency globally, which will have a particular impact on forest vitality, productivity, and species distribution. This study aims to assess the impact of tree species interaction on forest vulnerability to drought. Study programs: M.Sc. GCE, B.Sc./ M.Sc. Geoökologie, M.Sc. Biodiversity & Ökologie, M.Sc. Environmental Geography Language: English Start: anytime Location: N Bavaria/ Germany Skills needed: Basic knowledge of R Methods: Modelling, Remote Sensing Contact: Carl Beierkuhnlein, Mirela Beloiu Schwenke | |
Spatial statistics
Aims: Analyzing spatial forest structure in order to reveal relationships that take place between different tree species - species mingling. Method: point pattern analysis Study programs: M.Sc. GCE, B.Sc./ M.Sc. Geoökologie, M.Sc. Biodiversity & Ökologie, M.Sc. Environmental Geography Language: English Start: anytime Location: N Bavaria/ Germany Skills needed: Basic knowledge of R Contact: Carl Beierkuhnlein, Mirela Beloiu Schwenke | |
Tree regeneration patterns in deciduous forests
Aims: Tree regeneration and species composition are driven by numerous biotic and abiotic variables with varying degrees of overlapping influence. Understanding the conditions that promote certain spatial patterns of natural regeneration are important for forest productivity, ecological stability, and biodiversity. Study programs: M.Sc. GCE, B.Sc./ M.Sc. Geoökologie, M.Sc. Biodiversity & Ökologie, M.Sc. Environmental Geography Language: English Start: anytime Location: Europe Skills needed: Basic knowledge of R Methods: Modelling, Data Mining Contact: Carl Beierkuhnlein, Mirela Beloiu Schwenke |
Master's Theses offered | |
Forest Response to Drought Stress
Aims: Drought episodes are predicted to increase their intensity and frequency globally, which will have a particular impact on forest vitality, productivity, and species distribution. This study aims to assess the impact of tree species interaction on forest vulnerability to drought. Study programs: M.Sc. GCE, B.Sc./ M.Sc. Geoökologie, M.Sc. Biodiversity & Ökologie, M.Sc. Environmental Geography Language: English Start: anytime Location: N Bavaria/ Germany Skills needed: Basic knowledge of R Methods: Modelling, Remote Sensing Contact: Carl Beierkuhnlein, Mirela Beloiu Schwenke | |
Spatial statistics
Aims: Analyzing spatial forest structure in order to reveal relationships that take place between different tree species - species mingling. Method: point pattern analysis Study programs: M.Sc. GCE, B.Sc./ M.Sc. Geoökologie, M.Sc. Biodiversity & Ökologie, M.Sc. Environmental Geography Language: English Start: anytime Location: N Bavaria/ Germany Skills needed: Basic knowledge of R Contact: Carl Beierkuhnlein, Mirela Beloiu Schwenke | |
Tree regeneration patterns in deciduous forests
Aims: Tree regeneration and species composition are driven by numerous biotic and abiotic variables with varying degrees of overlapping influence. Understanding the conditions that promote certain spatial patterns of natural regeneration are important for forest productivity, ecological stability, and biodiversity. Study programs: M.Sc. GCE, B.Sc./ M.Sc. Geoökologie, M.Sc. Biodiversity & Ökologie, M.Sc. Environmental Geography Language: English Start: anytime Location: Europe Skills needed: Basic knowledge of R Methods: Modelling, Data Mining Contact: Carl Beierkuhnlein, Mirela Beloiu Schwenke | |
Global analysis of tree structure in protected areas
Aims: Forest structure is a key driver of ecosystem diversity. Here we aim to identify forest structure patterns between IUCN protected categories. Study programs: M.Sc. GCE, B.Sc./ M.Sc. Geoökologie, M.Sc. Biodiversity & Ökologie, M.Sc. Environmental Geography Language: English Start: anytime Location: Globally Skills needed: Basic knowledge of R Methods: Modelling, Data Mining Contact: Carl Beierkuhnlein, Mirela Beloiu Schwenke |