"Chapter 7. Populus and Salix Grown in a Short-rotation Coppice for Bioenergy: Ecophysiology, Aboveground Productivity, and Stand-level Water Use Efficiency".
Sustainable Biofuels: An Ecological Assessment of the Future Energy, edited by Ajay Kumar Bhardwaj, Terenzio Zenone and Jiquan Chen, Berlin, München, Boston: De Gruyter, 2015, pp. 155-194.
https://doi.org/10.1515/9783110275896-011(2015). Chapter 7. Populus and Salix Grown in a Short-rotation Coppice for Bioenergy: Ecophysiology, Aboveground Productivity, and Stand-level Water Use Efficiency. In A. Bhardwaj, T. Zenone & J. Chen (Ed.),
Sustainable Biofuels: An Ecological Assessment of the Future Energy (pp. 155-194). Berlin, München, Boston: De Gruyter.
https://doi.org/10.1515/9783110275896-0112015. Chapter 7. Populus and Salix Grown in a Short-rotation Coppice for Bioenergy: Ecophysiology, Aboveground Productivity, and Stand-level Water Use Efficiency. In: Bhardwaj, A., Zenone, T. and Chen, J. ed.
Sustainable Biofuels: An Ecological Assessment of the Future Energy. Berlin, München, Boston: De Gruyter, pp. 155-194.
https://doi.org/10.1515/9783110275896-011"Chapter 7. Populus and Salix Grown in a Short-rotation Coppice for Bioenergy: Ecophysiology, Aboveground Productivity, and Stand-level Water Use Efficiency" In
Sustainable Biofuels: An Ecological Assessment of the Future Energy edited by Ajay Kumar Bhardwaj, Terenzio Zenone and Jiquan Chen, 155-194. Berlin, München, Boston: De Gruyter, 2015.
https://doi.org/10.1515/9783110275896-011Chapter 7. Populus and Salix Grown in a Short-rotation Coppice for Bioenergy: Ecophysiology, Aboveground Productivity, and Stand-level Water Use Efficiency. In: Bhardwaj A, Zenone T, Chen J (ed.)
Sustainable Biofuels: An Ecological Assessment of the Future Energy. Berlin, München, Boston: De Gruyter; 2015. p.155-194.
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