His primary areas of investigation include Botany, Ecology, Lichen, Epiphyte and Global warming. His Botany research includes themes of Extracellular and Environmental chemistry. His study involves Taiga, Climate change, Larix sibirica, Steppe and Larch, a branch of Ecology.
His work deals with themes such as Zinc, Biological pigment and Thallus, which intersect with Lichen. The Epiphyte study combines topics in areas such as Forest dieback, Picea abies and Bark. His Global warming study integrates concerns from other disciplines, such as Elevation, Plateau, Picea crassifolia and Transect.
His scientific interests lie mostly in Ecology, Lichen, Botany, Epiphyte and Taiga. His work in Larix sibirica, Steppe, Global warming, Ecotone and Vegetation are all subfields of Ecology research. His biological study spans a wide range of topics, including Environmental chemistry, Bryophyte, Biodiversity and Thallus.
His Botany research includes elements of Abundance and Phosphate. Markus Hauck interconnects Old-growth forest, Picea abies, Stemflow and Forest dieback in the investigation of issues within Epiphyte. In the field of Taiga, his study on Picea obovata overlaps with subjects such as Soil carbon.
His primary areas of investigation include Ecology, Climate change, Old-growth forest, Fagus sylvatica and Taiga. His work on Ecology is being expanded to include thematically relevant topics such as Picea crassifolia. His Old-growth forest research integrates issues from Agronomy, Forest management, Canopy, Secondary forest and Woodland.
His studies in Taiga integrate themes in fields like Larix sibirica, Ecotone, Physical geography and Biome. His study looks at the intersection of Ecotone and topics like Steppe with Vegetation. His Lichen study combines topics in areas such as Spatial heterogeneity and Archaeology.
His primary areas of study are Ecology, Global warming, Climate change, Physical geography and Fagus sylvatica. He regularly links together related areas like Picea crassifolia in his Ecology studies. His Picea crassifolia research incorporates elements of Elevation, Shrubland, Plateau and Transect.
The Climate change study which covers Temperate climate that intersects with Quercus petraea, Drought stress, Vapour Pressure Deficit and Temperate rainforest. The concepts of his Fagus sylvatica study are interwoven with issues in Range and Forest dynamics. The various areas that Markus Hauck examines in his Forest ecology study include Larix sibirica, Larch, Deforestation, Secondary forest and Woodland.
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A first assessment of the impact of the extreme 2018 summer drought on Central European forests
Bernhard Schuldt;Allan Buras;Matthias Arend;Yann Vitasse.
Basic and Applied Ecology (2020)
Recent drought stress leads to growth reductions in Larix sibirica in the western Khentey, Mongolia
Choimaa Dulamsuren;Markus Hauck;Christoph Leuschner.
Global Change Biology (2009)
Climate Warming-Related Growth Decline Affects Fagus sylvatica, But Not Other Broad-Leaved Tree Species in Central European Mixed Forests
Jorma Zimmermann;Markus Hauck;Choimaa Dulamsuren;Christoph Leuschner.
Global warming-related tree growth decline and mortality on the north-eastern Tibetan plateau
Eryuan Liang;Christoph Leuschner;Choimaa Dulamsuren;Bettina Wagner.
Climatic Change (2016)
Pastoral nomadism in the forest-steppe of the Mongolian Altai under a changing economy and a warming climate.
D. Lkhagvadorj;M. Hauck;Ch. Dulamsuren;J. Tsogtbaatar.
Journal of Arid Environments (2013)
Manganese toxicity in epiphytic lichens: chlorophyll degradation and interaction with iron and phosphorus
Markus Hauck;Alexander Paul;Shana Gross;Markus Raubuch.
Environmental and Experimental Botany (2003)
Die Flechten Deutschlands
Volkmar Wirth;Markus Hauck;Matthias Schultz.
Site factors controlling epiphytic lichen abundance in northern coniferous forests
Ammonium and nitrate tolerance in lichens.
Environmental Pollution (2010)
Water relations and photosynthetic performance in Larix sibirica growing in the forest-steppe ecotone of northern Mongolia.
Choimaa Dulamsuren;Markus Hauck;Martin Bader;Dalaikhuu Osokhjargal.
Tree Physiology (2008)
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