Yields, Calorific Value and Chemical Properties of Cup Plant Silphium perfoliatum L. Biomass, Depending on the Method of Establishing the Plantation

Silphium perfoliatum L. (Silphium) is one of the most promising perennial herbaceous plants, mainly due to its high biomass yield and multiple uses. It can be grown as a fodder, ornamentally, for energy (mainly as a biogas source), and as a honey crop (source of nectar and pollen for pollinators). D...

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Published inAgronomy (Basel) Vol. 10; no. 6; p. 851
Main Authors Bury, Marek, Możdżer, Ewa, Kitczak, Teodor, Siwek, Hanna, Włodarczyk, Małgorzata
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.06.2020
Subjects
Alternative energy sources
Biodiesel fuels
Biogas
Biomass
Biomass burning
biomass yield
Calorific value
Carbon
Chemical composition
chemical composition of biomass
Chemical properties
chemical properties of soil
Climate change
Combustion
Crop yield
Crops
Cultivation
Drought
Experiments
Fodder
Harvest
heating value
Laboratories
Limiting factors
Methods
methods of establishing a plantation (seeds
Moisture content
Nectar
Phosphorus
Plantations
Planting
Planting density
Pollen
Pollinators
Potassium
Seedlings
Seeds
Silphium
Silphium perfoliatum
Soil chemistry
Soil properties
Sulfur content
Technology assessment
Vegetation
Poland
Canada
United States > US
North America
Germany
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Summary:Silphium perfoliatum L. (Silphium) is one of the most promising perennial herbaceous plants, mainly due to its high biomass yield and multiple uses. It can be grown as a fodder, ornamentally, for energy (mainly as a biogas source), and as a honey crop (source of nectar and pollen for pollinators). Despite the considerable qualities of this crop, the Silphium cultivation area in Europe is small. The main limiting factors are the significant costs of plantation establishment and the lack of biomass yield in the first year of cultivation. Considering these aspects, research was undertaken at the Agricultural Experimental Station Lipnik of West Pomeranian University of Technology Szczecin, to assess two methods of establishing a plantation: generative, by sowing seeds (seeds); and vegetative, by transplanting seedlings grown from seeds (planting), on the yield and quality of Silphium biomass attended for combustion and its heating value and chemical composition. In 2016–2019, annual aboveground biomass was harvested after the end of vegetation to obtain the raw material for combustion. The collected dry mass yield (DMY) of Silphium significantly differed between the years and methods of establishing the plantation. The biomass yields increased in the first two years of full vegetation from 9.3 to 18.1 Mg∙ha−1·yr−1, and then decreased in the third year of vegetation to ca. 13 Mg∙ha−1·yr−1 because of drought. Significantly higher DMY was obtained by sowing seeds (ca. 13.9 Mg∙ha−1·yr−1) compared to the planting method (ca. 13.0 Mg∙ha−1·yr−1), due to the higher plant density obtained after the sowing method compared to the planting method. The calorific value in the third year was the highest and amounted to ca. 17.8 MJ·kg−1 DM. The paper also presents changes in soil chemical properties before and after four years of Silphium cultivation.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy10060851