Ralf Kiese scite author profile

Although it is well established that soils are the dominating source for atmospheric nitrous oxide (N2O), we are still struggling to fully understand the complexity of the underlying microbial production and consumption processes and the links to biotic (e.g. inter- and intraspecies competition, food webs, plant–microbe interaction) and abiotic (e.g. soil climate, physics and chemistry) factors. Recent work shows that a better understanding of the composition and diversity of the microbial community across a variety of soils in different climates and under different land use, as well as plant–microbe interactions in the rhizosphere, may provide a key to better understand the variability of N2O fluxes at the soil–atmosphere interface. Moreover, recent insights into the regulation of the reduction of N2O to dinitrogen (N2) have increased our understanding of N2O exchange. This improved process understanding, building on the increased use of isotope tracing techniques and metagenomics, needs to go along with improvements in measurement techniques for N2O (and N2) emission in order to obtain robust field and laboratory datasets for different ecosystem types. Advances in both fields are currently used to improve process descriptions in biogeochemical models, which may eventually be used not only to test our current process understanding from the microsite to the field level, but also used as tools for up-scaling emissions to landscapes and regions and to explore feedbacks of soil N2O emissions to changes in environmental conditions, land management and land use.

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Climate–land-use interactions shape tropical mountain biodiversity and ecosystem functions

Peters

Hemp

Appelhans

et al. 2019

Nature

402

298

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A Network of Terrestrial Environmental Observatories in Germany

Zacharias

Bogena²,

Samaniego

et al. 2011

Vadose Zone Journal

449

287

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Multicompartment and multiscale long‐term observation and research are important prerequisites to tackling the scientific challenges resulting from climate and global change. Long‐term monitoring programs are cost intensive and require high analytical standards, however, and the gain of knowledge often requires longer observation times. Nevertheless, several environmental research networks have been established in recent years, focusing on the impact of climate and land use change on terrestrial ecosystems. From 2008 onward, a network of Terrestrial Environmental Observatories (TERENO) has been established in Germany as an interdisciplinary research program that aims to observe and explore the long‐term ecological, social, and economic impacts of global change at the regional level. State‐of‐the‐art methods from the field of environmental monitoring, geophysics, and remote sensing will be used to record and analyze states and fluxes for different environmental compartments from groundwater through the vadose zone, surface water, and biosphere, up to the lower atmosphere.

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The nitrogen cycle: A review of isotope effects and isotope modeling approaches

Denk

Mohn

Decock

et al. 2017

Soil Biology and Biochemistry

304

232

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N2O and CO2 emissions from three different tropical forest sites in the wet tropics of Queensland, Australia

Kiese¹,

Butterbach‐Bahl²

2002

Soil Biology and Biochemistry

202

148

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Ralf Kiese

Nitrous oxide emissions from soils: how well do we understand the processes and their controls?

Climate–land-use interactions shape tropical mountain biodiversity and ecosystem functions

A Network of Terrestrial Environmental Observatories in Germany

The nitrogen cycle: A review of isotope effects and isotope modeling approaches

N2O and CO2 emissions from three different tropical forest sites in the wet tropics of Queensland, Australia

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