6 research outputs found
A tudományos eredmények láthatóságának növelése : Megoldások a PTE Egyetemi Könyvtár és Tudásközpont kutatás- és oktatástámogatási eszköztárából
Ambrus Attila József (szerk.): A tudományos eredmények láthatóságának növelése : Megoldások a PTE Egyetemi Könyvtár és Tudásközpont kutatás- és oktatástámogatási eszköztárából. Pécsi Tudományegyetem, Egyetemi Könyvtár és Tudásközpont, Pécs, 2021. | ISBN (pdf): 978-963-429-748-2 | DOI 10.15170/EKTK-TELN-202
Az ügyész jogállása a büntetőeljárásban
Dolgozatomban az ügyész jogállását mutatom be a magyar büntetőeljárásban. Az első részben ismertetem az ügyészség szervezetének kialakulását. A második részben bemutatom, hogy a jelenleg hatályos jogszabály változások hogyan érintették az ügyészség szervezetét. A harmadik fejezetben ismertetem az ügyész szerepét a büntetőeljárásban, egyben bemutatom a magyar büntetőeljárás szakaszait. Dolgozatom zárásaként röviden ismertetem a vádalku jogintézményét.BscIgazgatásszervez
Smaller and Isolated Grassland Fragments Are Exposed to Stronger Seed and Insect Predation in Habitat Edges
Habitat fragmentation threatens terrestrial arthropod biodiversity, and thereby also leads to alterations of ecosystem functioning and stability. Predation on insects and seeds by arthropods are two very important ecological functions because of their community-structuring effects. We addressed the effect of fragment connectivity, fragment size, and edge effect on insect and seed predation of arthropods. We studied 60 natural fragments of two grassland ecosystems in the same region (Hungarian Great Plain), 30 forest-steppes, and 30 burial mounds (kurgans). The size of fragments were in the range of 0.16–6.88 ha for forest-steppe and 0.01–0.44 ha for kurgan. We used 2400 sentinel arthropod preys (dummy caterpillars) and 4800 seeds in trays for the measurements. Attack marks on dummy caterpillars were used for predator identification and calculation of insect predation rates. In the case of seeds, predation rates were calculated as the number of missing or damaged seeds per total number of exposed seeds. Increasing connectivity played a role only in generally small kurgans, with a negative effect on insect and seed predation rates in the edges. In contrast, fragment size moderated edge effects on insect and seed predation rates in generally large forest-steppes. The difference between edges and centres was more pronounced in small than in large fragments. Our study emphasizes the important role of landscape and fragment-scale factors interacting with edge effect in shaping ecosystem functions in natural grassland fragments of modified landscapes. Managing functional landscapes to optimize the assessment of ecosystem functions and services needs a multispatial scale approach
Smaller and Isolated Grassland Fragments Are Exposed to Stronger Seed and Insect Predation in Habitat Edges
Habitat fragmentation threatens terrestrial arthropod biodiversity, and thereby also leads
to alterations of ecosystem functioning and stability. Predation on insects and seeds by arthropods
are two very important ecological functions because of their community-structuring effects. We addressed the effect of fragment connectivity, fragment size, and edge effect on insect and seed predation
of arthropods. We studied 60 natural fragments of two grassland ecosystems in the same region
(Hungarian Great Plain), 30 forest-steppes, and 30 burial mounds (kurgans). The size of fragments
were in the range of 0.16–6.88 ha for forest-steppe and 0.01–0.44 ha for kurgan. We used 2400 sentinel
arthropod preys (dummy caterpillars) and 4800 seeds in trays for the measurements. Attack marks
on dummy caterpillars were used for predator identification and calculation of insect predation rates.
In the case of seeds, predation rates were calculated as the number of missing or damaged seeds
per total number of exposed seeds. Increasing connectivity played a role only in generally small
kurgans, with a negative effect on insect and seed predation rates in the edges. In contrast, fragment
size moderated edge effects on insect and seed predation rates in generally large forest-steppes.
The difference between edges and centres was more pronounced in small than in large fragments.
Our study emphasizes the important role of landscape and fragment-scale factors interacting with
edge effect in shaping ecosystem functions in natural grassland fragments of modified landscapes.
Managing functional landscapes to optimize the assessment of ecosystem functions and services
needs a multispatial scale approach