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Cotton green fiber promotes suberin synthesis interfering cellulose deposition in the secondary cell wall
Industrial Crops and Products,
2023
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[2]
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Cotton green fiber promotes suberin synthesis interfering cellulose deposition in the secondary cell wall
Industrial Crops and Products,
2023
DOI:10.1016/j.indcrop.2023.116346
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[3]
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The development of a new crop growth model SwitchFor for yield mapping of switchgrass
GCB Bioenergy,
2022
DOI:10.1111/gcbb.12998
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[4]
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The development of a new crop growth model
SwitchFor
for yield mapping of switchgrass
GCB Bioenergy,
2022
DOI:10.1111/gcbb.12998
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[5]
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Global analysis of switchgrass (Panicum virgatum L.) transcriptomes in response to interactive effects of drought and heat stresses
BMC Plant Biology,
2022
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[6]
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Simulated Biomass, Climate Change Impacts, and Nitrogen Management to Achieve Switchgrass Biofuel Production at Diverse Sites in U.S.
Agronomy,
2020
DOI:10.3390/agronomy10040503
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[7]
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QTL mapping of winter dormancy and associated traits in two switchgrass pseudo-F1 populations: lowland x lowland and lowland x upland
BMC Plant Biology,
2020
DOI:10.1186/s12870-020-02714-8
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[8]
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Biyoenerji Bitkisi Olarak Dallı Darının (Panicum virgatum L.) Türkiye’de Potansiyel Yetiştirme Alanlarının Belirlenmesinde Analitik Hiyerarşi Süreci ve Coğrafi Bilgi Sistemleri Yaklaşımı
Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi,
2019
DOI:10.21566/tarbitderg.581120
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[9]
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Biyoenerji Bitkisi Olarak Dallı Darının (Panicum virgatum L.) Türkiye’de Potansiyel Yetiştirme Alanlarının Belirlenmesinde Analitik Hiyerarşi Süreci ve Coğrafi Bilgi Sistemleri Yaklaşımı
Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi,
2019
DOI:10.21566/tarbitderg.581120
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[10]
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Effects of precipitation changes on switchgrass photosynthesis, growth, and biomass: A mesocosm experiment
PLOS ONE,
2018
DOI:10.1371/journal.pone.0192555
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[11]
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Developmental Morphology and Biomass Yield of Upland and Lowland Switchgrass Ecotypes Grown in Iowa
Agronomy,
2018
DOI:10.3390/agronomy8050061
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[12]
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Two-phase simulation-based location-allocation optimization of biomass storage distribution
Simulation Modelling Practice and Theory,
2018
DOI:10.1016/j.simpat.2018.05.006
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[13]
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Genome-Wide Analysis of the PvHsp20 Family in Switchgrass: Motif, Genomic Organization, and Identification of Stress or Developmental-Related Hsp20s
Frontiers in Plant Science,
2017
DOI:10.3389/fpls.2017.01024
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[14]
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Sensitivity Analysis of the APEX Model for Assessing Sustainability of Switchgrass Grown for Biofuel Production in Central Texas
BioEnergy Research,
2017
DOI:10.1007/s12155-017-9878-8
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[15]
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Light and temperature effects on miR156 transgenic switchgrass flowering: A simulated latitudinal study
Plant Direct,
2017
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[16]
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Ecosystem model parameterization and adaptation for sustainable cellulosic biofuel landscape design
GCB Bioenergy,
2016
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[17]
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Influence of harvest time and frequency on light interception and biomass yield of festulolium and tall fescue cultivated on a peatland
European Journal of Agronomy,
2016
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[18]
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Ecosystem model parameterization and adaptation for sustainable cellulosic biofuel landscape design
GCB Bioenergy,
2016
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Full GHG balance of a drained fen peatland cropped to spring barley and reed canary grass using comparative assessment of CO2 fluxes
Environmental Monitoring and Assessment,
2015
DOI:10.1007/s10661-014-4259-7
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[20]
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Environmental control of daytime net ecosystem exchange of carbon dioxide in switchgrass
Agriculture, Ecosystems & Environment,
2014
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[21]
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Transcriptome analysis of heat stress response in switchgrass (Panicum virgatumL.)
BMC Plant Biology,
2013
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