macrodomain.\*:("Biomass, bioproducts")
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Carbon and nitrogen dynamics in bioenergy ecosystems: 1. Model development, validation and sensitivity analysisZHANGCAI QIN; QIANLAI ZHUANG; XUDONG ZHU et al.Global change biology. Bioenergy. 2014, Vol 6, Num 6, pp 740-755, issn 1757-1693, 16 p.Article
Contribution of nitrogen fixation to first year Miscanthus x giganteusKEYMER, Daniel P; KENT, Angela D.Global change biology. Bioenergy. 2014, Vol 6, Num 5, pp 577-586, issn 1757-1693, 10 p.Article
Conversion of open lands to short-rotation woody biomass crops: site variability affects nitrogen cycling and N2O fluxes in the US Northern Lake StatesPALMER, Marin M; FORRESTER, Jodi A; ROTHSTEIN, David E et al.Global change biology. Bioenergy. 2014, Vol 6, Num 4, pp 450-464, issn 1757-1693, 15 p.Article
Elevated methane emissions from a paddy field in southeast China occur after applying anaerobic digestion slurryHUANG, Hong-Ying; CAO, Jin-Liu; WU, Hong-Sheng et al.Global change biology. Bioenergy. 2014, Vol 6, Num 5, pp 465-472, issn 1757-1693, 8 p.Article
Floral display and effects of natural and artificial pollination on fruiting and seed yield of the tropical biofuel crop Jatropha curcas LNEGUSSIE, Aklilu; ACHTEN, Wouter M. J; VERBOVEN, Hans A. F et al.Global change biology. Bioenergy. 2014, Vol 6, Num 3, pp 210-218, issn 1757-1693, 9 p.Article
Global simulation of bioenergy crop productivity: analytical framework and case study for switchgrassSHUJIANG KANG; SUJITHKUMAR SURENDRAN NAIR; KLINE, Keith L et al.Global change biology. Bioenergy. 2014, Vol 6, Num 1, pp 14-25, issn 1757-1693, 12 p.Article
Implications of land class and environmental factors on life cycle GHG emissions of Miscanthus as a bioenergy feedstockSANSCARTIER, David; DEEN, Bill; DIAS, Goretty et al.Global change biology. Bioenergy. 2014, Vol 6, Num 4, pp 401-413, issn 1757-1693, 13 p.Article
Miscanthus sacchariflorus - biofuel parent or new weed?BONIN, Catherine L; HEATON, Emily A; BARB, Jessica et al.Global change biology. Bioenergy. 2014, Vol 6, Num 6, pp 629-636, issn 1757-1693, 8 p.Article
Response of farmland biodiversity to the introduction of bioenergy crops: effects of local factors and surrounding landscape contextBOURKE, David; STANLEY, Dara; DOLAN, Lisa et al.Global change biology. Bioenergy. 2014, Vol 6, Num 3, pp 275-289, issn 1757-1693, 15 p.Article
Seasonal variability in net ecosystem carbon dioxide exchange over a young Switchgrass standWAGLE, Pradeep; KAKANI, Vijaya Gopal.Global change biology. Bioenergy. 2014, Vol 6, Num 4, pp 339-350, issn 1757-1693, 12 p.Article
Using CO2 to enhance carbon capture and biomass applications of freshwater macroalgaeCOLE, Andrew J; MATA, Leonardo; PAUL, Nicholas A et al.Global change biology. Bioenergy. 2014, Vol 6, Num 6, pp 637-645, issn 1757-1693, 9 p.Article
The technical potential of Great Britain to produce ligno-cellulosic biomass for bioenergy in current and future climatesHASTINGS, Astley; TALLIS, Matthew J; CASELLA, Eric et al.Global change biology. Bioenergy. 2014, Vol 6, Num 2, pp 108-122, issn 1757-1693, 15 p.Article
A multi-criteria based review of models that predict environmental impacts of land use-change for perennial energy crops on water, carbon and nitrogen cyclingTHOMAS, Amy R. C; BOND, Alan J; HISCOCK, Kevin M et al.Global change biology. Bioenergy. 2013, Vol 5, Num 3, pp 227-242, issn 1757-1693, 16 p.Article
An energy-biochar chain involving biomass gasification and rice cultivation in Northern ItalyLUGATO, Emanuele; VACCARI, Francesco P; GENESIO, Lorenzo et al.Global change biology. Bioenergy. 2013, Vol 5, Num 2, pp 192-201, issn 1757-1693, 10 p.Article
Assessing potential of biochar for increasing water-holding capacity of sandy soilsBASSO, Andres S; MIGUEZ, Fernando E; LAIRD, David A et al.Global change biology. Bioenergy. 2013, Vol 5, Num 2, pp 132-143, issn 1757-1693, 12 p.Article
Common reeds (Phragmites australis) as sustainable energy source: experimental and modelling analysis of torrefaction and pyrolysis processesPATUZZI, Francesco; MIMMO, Tanja; CESCO, Stefano et al.Global change biology. Bioenergy. 2013, Vol 5, Num 4, pp 367-374, issn 1757-1693, 8 p.Article
Ethanol production potential of sweet sorghum assessed using forage fiber analysis proceduresHAN, Kun-Jun; PITMAN, William D; KIM, Misook et al.Global change biology. Bioenergy. 2013, Vol 5, Num 4, pp 358-366, issn 1757-1693, 9 p.Article
Evaluating a sustainability index for nutrients in a short rotation energy cropping systemSOCHACKI, Stanley J; HARPER, Richard J; SMETTEM, Keith R. J et al.Global change biology. Bioenergy. 2013, Vol 5, Num 3, pp 315-326, issn 1757-1693, 12 p.Article
Global biomass potentials under sustainability restrictions defined by the European Renewable Energy Directive 2009/28/ECSCHUELER, Vivian; WEDDIGE, Ulf; BERINGER, Tim et al.Global change biology. Bioenergy. 2013, Vol 5, Num 6, pp 652-663, issn 1757-1693, 12 p.Article
How effective are the sustainability criteria accompanying the European Union 2020 biofuel targets?FRANK, Stefan; BÖTTCHER, Hannes; HAVLIK, Petr et al.Global change biology. Bioenergy. 2013, Vol 5, Num 3, pp 306-314, issn 1757-1693, 9 p.Article
Implications of biofuel policy-driven land cover change for rainfall erosivity and soil erosion in the United StatesKHANAL, Sami; ANEX, Robert P; ANOERSON, Christopher J et al.Global change biology. Bioenergy. 2013, Vol 5, Num 6, pp 713-722, issn 1757-1693, 10 p.Article
Invasiveness risk of the tropical biofuel crop Jatropha curcas L. into adjacent land use systems: from the rumors to the experimental factsNEGUSSIE, Aklilu; ACHTEN, Wouter M. J; AERTS, Raf et al.Global change biology. Bioenergy. 2013, Vol 5, Num 4, pp 419-430, issn 1757-1693, 12 p.Article
Management swing potential for bioenergy cropsDAVIS, Sarah C; BODDEY, Robert M; ALVES, Bruno J. R et al.Global change biology. Bioenergy. 2013, Vol 5, Num 6, pp 623-638, issn 1757-1693, 16 p.Article
N2O fluxes of a bio-energy poplar plantation during a two years rotation periodZONA, Donatella; JANSSENS, Ivan A; GIOLI, Beniamino et al.Global change biology. Bioenergy. 2013, Vol 5, Num 5, pp 536-547, issn 1757-1693, 12 p.Article
Optimizing a continuous flow lipid extraction system (CFLES) used for extracting microalgal lipidsIQBAL, Javed; THEEGALA, Chandra.Global change biology. Bioenergy. 2013, Vol 5, Num 3, pp 327-337, issn 1757-1693, 11 p.Article
