Evolution of soil carbon stocks under Miscanthus  ×  giganteus and Miscanthus sinensis across contrasting environmental conditions

Effects of several establishment modes of Miscanthus × giganteus and Miscanthus sinensis on yields and yield trends

(2020) Malick S. Ouattara et al.   Global Change Biology Bioenergy

Soil carbon storage and mineralization rates are affected by carbon inputs rather than physical disturbance: Evidence from a 47-year tillage experiment

(2020) Bruno Mary et al.   AGRICULTURE ECOSYSTEMS & ENVIRONMENT

Species and Genotype Effects of Bioenergy Crops on Root Production, Carbon and Nitrogen in Temperate Agricultural Soil

(2018) Andrew S. Gregory et al.   BioEnergy Research

Carbon sequestration and yield performances of Miscanthus × giganteus and Miscanthus sinensis

(2018) Toru Nakajima et al.   Carbon Management

Storage of Miscanthus-derived carbon in rhizomes, roots, and soil

(2016) Bent T. Christensen et al.   CANADIAN JOURNAL OF SOIL SCIENCE

AMiscanthusplantation can be carbon neutral without increasing soil carbon stocks

(2016) Andy D. Robertson et al.   Global Change Biology Bioenergy

Initial soil C and land-use history determine soil C sequestration under perennial bioenergy crops

(2016) Rebecca L. Rowe et al.   Global Change Biology Bioenergy

Miscanthus as energy crop: Environmental assessment of a miscanthus biomass production case study in France

(2016) F. Morandi et al.   JOURNAL OF CLEANER PRODUCTION

Climate, soil texture, and soil types affect the contributions of fine-fraction-stabilized carbon to total soil organic carbon in different land uses across China

(2016) Andong Cai et al.   JOURNAL OF ENVIRONMENTAL MANAGEMENT

Sequestration of C in soils under Miscanthus can be marginal and is affected by genotype-specific root distribution

(2015) Goetz M. Richter et al.   AGRICULTURE ECOSYSTEMS & ENVIRONMENT

Changes in soil carbon stocks under perennial and annual bioenergy crops

(2015) Fabien Ferchaud et al.   Global Change Biology Bioenergy

Soil carbon sequestration and land use change associated with biofuel production: empirical evidence

(2015) Zhangcai Qin et al.   Global Change Biology Bioenergy

Effects of a 20-year old Miscanthus  ×  giganteus stand and its removal on soil characteristics and greenhouse gas emissions

(2014) K. Dufossé et al.   BIOMASS & BIOENERGY

Carbon sequestration potential in perennial bioenergy crops: the importance of organic matter inputs and its physical protection

(2014) Carlo Chimento et al.   Global Change Biology Bioenergy

Experimental Consideration, Treatments, and Methods in Determining Soil Organic Carbon Sequestration Rates

(2014) Kenneth R. Olson et al.   SOIL SCIENCE SOCIETY OF AMERICA JOURNAL

Conservation agriculture and ecosystem services: An overview

(2013) Cheryl Palm et al.   AGRICULTURE ECOSYSTEMS & ENVIRONMENT

Assessing the impacts of the establishment ofMiscanthuson soil organic carbon on two contrasting land-use types in Ireland

(2013) J. Zimmermann et al.   EUROPEAN JOURNAL OF SOIL SCIENCE

Soil carbon changes under Miscanthus driven by C4accumulation and C3decompostion - toward a default sequestration function

(2013) Christopher Poeplau et al.   Global Change Biology Bioenergy

Assessing the impact of within crop heterogeneity (‘patchiness’) in youngMiscanthus × giganteusfields on economic feasibility and soil carbon sequestration

(2013) Jesko Zimmermann et al.   Global Change Biology Bioenergy

Implications of productivity and nutrient requirements on greenhouse gas balance of annual and perennial bioenergy crops

(2013) Stephane Cadoux et al.   Global Change Biology Bioenergy

Transcriptomic and proteomic comparison of two Miscanthus genotypes: high biomass correlates with investment in primary carbon assimilation and decreased secondary metabolism

(2013) Daniel Straub et al.   PLANT AND SOIL

A novel soil organic C model using climate, soil type and management data at the national scale in France

(2012) Jeroen Meersmans et al.   Agronomy for Sustainable Development

A high resolution map of French soil organic carbon

(2012) Jeroen Meersmans et al.   Agronomy for Sustainable Development

Miscanthus × giganteusleaf senescence, decomposition and C and N inputs to soil

(2012) Norbert Amougou et al.   Global Change Biology Bioenergy

Soil carbon sequestration during the establishment phase of Miscanthus × giganteus: a regional-scale study on commercial farms using 13C natural abundance

(2011) Jesko Zimmermann et al.   Global Change Biology Bioenergy

Can no-tillage stimulate carbon sequestration in agricultural soils? A meta-analysis of paired experiments

(2010) Zhongkui Luo et al.   AGRICULTURE ECOSYSTEMS & ENVIRONMENT

Agronomic and physiological performances of different species ofMiscanthus, a major energy crop. A review

(2009) H. W. Zub et al.   Agronomy for Sustainable Development

Carbon sequestration under Miscanthus: a study of 13C distribution in soil aggregates

(2009) MARTA DONDINI et al.   Global Change Biology Bioenergy

Changes in soil organic carbon under biofuel crops

(2009) KRISTINA J. ANDERSON-TEIXEIRA et al.   Global Change Biology Bioenergy