Evelyn Hackl
Austrian Institute of Technology
26 Papers
284 Citations
Evelyn Hackl is an academic researcher from Austrian Institute of Technology. The author has contributed to research in topics: Soil water & Soil microbiology. The author has an hindex of 15, co-authored 26 publications.
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Papers
Nitrifiers and denitrifiers respond rapidly to changed moisture and increasing temperature in a pristine forest soil.
Ute Szukics,Guy C. J. Abell,Guy C. J. Abell,Verania Hödl,Birgit Mitter,Angela Sessitsch,Evelyn Hackl,Sophie Zechmeister-Boltenstern +7 more
TL;DR: AmoA- and nirK-gene-based analysis revealed increasing abundance of bacterial ammonia oxidizers (AOB) with increasing soil temperature and a decrease in the abundance of archaeal ammonia oxidizer (AOA) in wet soil at 25 degrees C, suggesting the sensitivity of the latter to anaerobic conditions.
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Comparison of Diversities and Compositions of Bacterial Populations Inhabiting Natural Forest Soils
TL;DR: The soil bacterial communities in forests with distinct vegetational and soil chemical properties appeared to be well differentiated based on 16S rRNA gene phylogeny and the outstanding position of the Austrian pine forests was reflected in the bacterial community composition.
251
Composition of the microbial communities in the mineral soil under different types of natural forest
TL;DR: In this article, the composition of soil microbial communities under 12 natural forest stands including oak and beech, spruce-fir-beech, floodplain and pine forests were quantified by substrate-induced respiration and chloroform fumigation-extraction.
249
Dynamics of ammonia-oxidizing communities in barley-planted bulk soil and rhizosphere following nitrate and ammonium fertilizer amendment.
Katrin Glaser,Evelyn Hackl,Erich Inselsbacher,Joseph Strauss,Wolfgang Wanek,Sophie Zechmeister-Boltenstern,Angela Sessitsch +6 more
TL;DR: AOB and AOA were considered as the main agents responsible for fertilizer ammonium oxidation, while the functions of AOA in soil N cycling remain unresolved.
115
The role of plant-microbiome interactions in weed establishment and control.
TL;DR: The recent advances in understanding the functions of microbial communities for weed/invasive plant establishment are discussed and new ways to use plant-associated microorganisms to control weeds and invasive plants in different land management systems are shown.
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