Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5761207 | European Journal of Agronomy | 2017 | 11 Pages |
Abstract
For biomethane production, the cup plant (Silphium perfoliatum L.) is considered a promising alternative substrate to silage maize (Zea mays L.) due to its high biomass potential and associated ecological and environmental benefits. It has also been suggested to grow cup plant on less productive soils because of its presumed drought tolerance, but robust information on the impact of water shortage on biomass growth and substrate quality of cup plant is rare. Therefore, this study assesses the effects of soil water availability on the chemical composition and specific methane yield (SMY) of cup plant. Furthermore above-ground dry matter yield (DMY) was analysed as a function of intercepted photosynthetic active radiation (PAR) and radiation use efficiency (RUE). Data were collected in a two-year field experiment under rainfed and irrigated conditions with cup plant, maize, and lucerne-grass (Medicago sativa L., Festuca pratensis Huds., Phleum pratense L.). The cup plant revealed a slight decrease of â6% in the SMY in response to water shortage (less than 50% of plant available water capacity). The average SMY of cup plant [306 l (kg volatile solids (VS))â1] was lower than that of maize [362 l (kg VS)â1] and lucerne-grass [334 l (kg VS)â1]. The mean drought-related reduction of the methane hectare yield (MHY) was significantly greater for cup plant (â40%) than for maize (â17%) and lucerne-grass (â13%). The DMY reduction in rainfed cup plant was mainly attributed to a more severe decrease in RUE (â29%) than for maize (â16%) and lucerne-grass (â12%). Under water stress, the mean cup plant RUE (1.3 g MJâ1) was significantly lower than that of maize (2.9 g MJâ1) and lucerne-grass (1.4 g MJâ1). Compared to RUE, the reduced PAR interception was less meaningful for DMY in rainfed crops. Hence, the cup plant is not suitable for growing on drought prone lands due to its high water demand required to produce reasonably high MHYs.
Keywords
Related Topics
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Agricultural and Biological Sciences
Agronomy and Crop Science
Authors
Burkhard Schoo, Henning Kage, Siegfried Schittenhelm,