Cultivating forage maize for biomass and bioenergy in a sub-boreal climate

Authors

  • Kenedy E Epie Montana State University, Western Triangle Agricultural Research Center (WTARC)
  • Olga M. Artigas Department of Agricultural Sciences, University of Helsinki
  • Arja Santanen Department of Agricultural Sciences, University of Helsinki
  • Pirjo S.A. Mäkelä Department of Agricultural Sciences, University of Helsinki http://orcid.org/0000-0002-8757-6015
  • Frederick L. Stoddard Department of Agricultural Sciences, University of Helsinki http://orcid.org/0000-0002-8097-5750

Keywords:

maize, plant fractions, biomass, bioenergy, sugar production, boreal climate

Abstract

The biomass potential of eight high yielding maize cultivars was studied in the sub-boreal climate of southern Finland. The effects of harvest date on lignin and sugar production, biomass yield, mineral element composition, bioenergy potential and soil nutrient management were determined in two years. The eight maize cultivars produced 17.6–33.3 t ha-1 of biomass. The ear fraction contained 50–60% of the biomass, and ash and mineral element composition of the plant fractions were significantly different (p < 0.001), with more ash, Ca and S in the above-ear fractions of the plants than in the mid-stalk portions, whereas the C:N ratio was highest in the lower stalk. Cultivars with less lignin content produced more fermetable sugars. Despite the relatively cool growing conditions and short season of the sub-boreal region, maize has potential for use as biomass, for biofuel or other uses. The crop can be fractioned into ear and stalk, with the lower 20 cm of stalk left in the field to maintain soil organic matter content.

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Section
Articles

Published

2018-09-30

How to Cite

Epie, K. E., Artigas, O. M., Santanen, A., Mäkelä, P. S., & Stoddard, F. L. (2018). Cultivating forage maize for biomass and bioenergy in a sub-boreal climate. Agricultural and Food Science, 27(3), 190–198. https://doi.org/10.23986/afsci.70408
Received 2018-05-11
Accepted 2018-08-17
Published 2018-09-30