Greta Gaudig scite author profile

In March 2013, 40 leading experts from across the world gathered at a workshop, hosted by the European Commission, Directorate General Joint Research Centre, Italy, to discuss the multiple benefits of soil carbon as part of a Rapid Assessment Process (RAP) project commissioned by Scientific Committee on Problems of the Environment (SCOPE). This collaboration led to the publication of the SCOPE Series Volume 71 "Soil Carbon: Science, Management and Policy for Multiple Benefits"; which brings together the essential scientific evidence and policy opportunities regarding the global importance of soil carbon. This short communication summarises the key messages of the assessment including research and policy implications. (Résumé d'auteur

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Sphagnumgrowth under N saturation: interactive effects of water level and P or K fertilization

Gaudig

Krebs

2020

Plant Biol J

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Sphagnum biomass is a promising material that could be used as a substitute for peat in growing media and can be sustainably produced by converting existing drainagebased peatland agriculture into wet, climate-friendly agriculture (paludiculture). Our study focuses on yield maximization of Sphagnum as a crop.• We tested the effects of three water level regimes and of phosphorus or potassium fertilization on the growth of four Sphagnum species (S. papillosum, S. palustre, S. fimbriatum, S. fallax). To simulate field conditions in Central and Western Europe we carried out a glasshouse experiment under nitrogen-saturated conditions.• A constant high water table (remaining at 2 cm below capitulum during growth) ledto highest productivity for all tested species. Water table fluctuations between 2 and 9 cm below capitulum during growth and a water level 2 cm below capitulum at the start but falling relatively during plant growth led to significantly lower productivity. Fertilization had no effect on Sphagnum growth under conditions with high atmospheric deposition such as in NW Germany (38 kg N, 0.3 kg P, 7.6 kg KÁha À1 Áyear À1 ).• Large-scale maximization of Sphagnum yields requires precise water management, with water tables just below the capitula and rising with Sphagnum growth. The nutrient load in large areas of Central and Western Europe from atmospheric deposition and irrigation water is high but, with an optimal water supply, does not hamper Sphagnum growth, at least not of regional provenances of Sphagnum.Plant Biology 22 (2020) 394-403

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Paludiculture: sustainable productive use of wet and rewetted peatlands

Joosten

Gaudig

Tanneberger

et al. 2016

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Greta Gaudig

Sphagnum farming in a eutrophic world: The importance of optimal nutrient stoichiometry

Nutrient dynamics of Sphagnum farming on rewetted bog grassland in NW Germany

Soil carbon, multiple benefits

Sphagnumgrowth under N saturation: interactive effects of water level and P or K fertilization

Paludiculture: sustainable productive use of wet and rewetted peatlands

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