Integrating perennial biomass crops into crop rotations: How to remove miscanthus and switchgrass without glyphosate

Soil Organic Carbon Significantly Increases When Perennial Biomass Plantations Are Reverted Back to Annual Arable Crops

(2023) Enrico Martani et al.   Agronomy-Basel

Short-Term Mineralization of Belowground Biomass of Perennial Biomass Crops after Reversion to Arable Land

(2022) Andrea Ferrarini et al.   Agronomy-Basel

Site impacts nutrient translocation efficiency in intraspecies and interspecies miscanthus hybrids on marginal lands

(2022) Elena Magenau et al.   Global Change Biology Bioenergy

Valorization of Miscanthus x giganteus for sustainable recovery of anthocyanins and enhanced production of sugars

(2022) Shivali Banerjee et al.   Journal of Cleaner Production

Influence of cutting height on biomass yield and quality of miscanthus genotypes

(2021) Elena Magenau et al.   Global Change Biology Bioenergy

Soil carbon stock impacts following reversion of Miscanthus × giganteus and short rotation coppice willow commercial plantations into arable cropping

(2020) Rebecca L. Rowe et al.   Global Change Biology Bioenergy

Perennial rhizomatous grasses: Can they really increase species richness and abundance in arable land?—A meta‐analysis

(2020) Jan Lask et al.   Global Change Biology Bioenergy

How can miscanthus fields be reintegrated into a crop rotation?

(2019) Anja Mangold et al.   Global Change Biology Bioenergy

Breeding Strategies to Improve Miscanthus as a Sustainable Source of Biomass for Bioenergy and Biorenewable Products

(2019) John Clifton-Brown et al.   Agronomy-Basel

Spring Wheat Yields Following Perennial Forages in a Semiarid No-Till Cropping System

(2018) J.G. Franco et al.   AGRONOMY JOURNAL

Site-Specific Management of Miscanthus Genotypes for Combustion and Anaerobic Digestion: A Comparison of Energy Yields

(2017) Andreas Kiesel et al.   Frontiers in Plant Science

Evaluation ofMiscanthus sinensisbiomass quality as feedstock for conversion into different bioenergy products

(2016) Tim van der Weijde et al.   Global Change Biology Bioenergy

Progress in upscalingMiscanthusbiomass production for the European bio-economy with seed-based hybrids

(2016) John Clifton-Brown et al.   Global Change Biology Bioenergy

Miscanthus as biogas substrate - cutting tolerance and potential for anaerobic digestion

(2016) Andreas Kiesel et al.   Global Change Biology Bioenergy

Progress on Optimizing Miscanthus Biomass Production for the European Bioeconomy: Results of the EU FP7 Project OPTIMISC

(2016) Iris Lewandowski et al.   Frontiers in Plant Science

Environmental Performance of Miscanthus, Switchgrass and Maize: Can C4 Perennials Increase the Sustainability of Biogas Production?

(2016) Andreas Kiesel et al.   Sustainability

Environmental costs and benefits of growingMiscanthusfor bioenergy in the UK

(2015) Jon P. McCalmont 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

Assessment of energy crops alternative to maize for biogas production in the Greater Region

(2014) Frédéric Mayer et al.   BIORESOURCE TECHNOLOGY

Plant morphology, genome size, and SSR markers differentiate five distinct taxonomic groups among accessions in the genusMiscanthus

(2014) Won Byoung Chae et al.   Global Change Biology Bioenergy

Effect of Various Herbicides on Warm-season Grass Weeds and Switchgrass Establishment

(2013) Maru K. Kering et al.   CROP SCIENCE