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Energy conversion efficiency in sugarcane cultivars as a function of production environments in Brazil

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  • de Moraes Barbosa, Alexandrius
  • Rebes Zilliani, Rafael
  • Tiritan, Carlos Sérgio
  • Maia Souza, Gustavo
  • de Almeida Silva, Marcelo

Abstract

Energy production needs to increase in order to meet population and industrial growth in the coming decades, and clean energy that promotes the reduction of polluting gases in the atmosphere is required. Sugarcane is a crop with great potential for bioenergy production due to its high potential for converting solar energy into biomass. In this context, the questions arise: What is the real efficiency of conversion solar energy into biomass by sugarcane? How can the production environment and genetic diversity influence this process? In this sense, the objective of this work was to evaluate the efficiency of the conversion of solar energy into biomass, as well the available energy per hectare, and the productivity of stalks as a function of the production environment in different cultivars. The experiments were carried out in two production environments in Brazil, Prado Ferreira, Paraná State (Production Environment A) and Presidente Bernardes, São Paulo State (Production Environment C) and with three sugarcane cultivars SP80-3280, RB855156 and RB867515 in two cultivation cycles. This study showed: a) the production environment × genotype interaction causes 75.80% variation in stalk productivity; b) biomass productivity is less affected by water deficit than stalk productivity; c) the energy conversion efficiency (ECE) ranged from 2.80 to 4.54% in plant cane and 2.10–3.87% in ratoon cane cycles. The variation of ECE in the production environments was due to four main factors: greater water availability, soil fertility, air temperature and solar radiation.

Suggested Citation

  • de Moraes Barbosa, Alexandrius & Rebes Zilliani, Rafael & Tiritan, Carlos Sérgio & Maia Souza, Gustavo & de Almeida Silva, Marcelo, 2021. "Energy conversion efficiency in sugarcane cultivars as a function of production environments in Brazil," Renewable and Sustainable Energy Reviews, Elsevier, vol. 150(C).
    • Handle: RePEc:eee:rensus:v:150:y:2021:i:c:s1364032121007796
    DOI: 10.1016/j.rser.2021.111500
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    References listed on IDEAS

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    1. Coelho, Rubens Duarte & Lizcano, Jonathan Vásquez & da Silva Barros, Timóteo Herculino & da Silva Barbosa, Fernando & Leal, Daniel Philipe Veloso & da Costa Santos, Lucas & Ribeiro, Nathalia Lopes & J, 2019. "Effect of water stress on renewable energy from sugarcane biomass," Renewable and Sustainable Energy Reviews, Elsevier, vol. 103(C), pages 399-407.
    2. Carvalho, André Luiz de & Menezes, Rômulo Simões Cezar & Nóbrega, Ranyére Silva & Pinto, Alexandre de Siqueira & Ometto, Jean Pierre Henry Balbaud & von Randow, Celso & Giarolla, Angélica, 2015. "Impact of climate changes on potential sugarcane yield in Pernambuco, northeastern region of Brazil," Renewable Energy, Elsevier, vol. 78(C), pages 26-34.
    3. Lina M. Mercado & Nicolas Bellouin & Stephen Sitch & Olivier Boucher & Chris Huntingford & Martin Wild & Peter M. Cox, 2009. "Impact of changes in diffuse radiation on the global land carbon sink," Nature, Nature, vol. 458(7241), pages 1014-1017, April.
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    1. Marcelo de Almeida Silva & Gabriel Henrique Germino & Lucas Almeida de Holanda & Laura Costa Oliveira & Hariane Luiz Santos & Maria Márcia Pereira Sartori, 2022. "Sugarcane Productivity as a Function of Zinc Dose and Application Method," Agriculture, MDPI, vol. 12(11), pages 1-12, November.
    2. Enrico Orsi & Pablo Ivan Nikel & Lars Keld Nielsen & Stefano Donati, 2023. "Synergistic investigation of natural and synthetic C1-trophic microorganisms to foster a circular carbon economy," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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