TY - JOUR
T1 - Contribution of High Nature Value farming systems to sustainable livestock production
T2 - A case from Finland
AU - Torres-Miralles, M.
AU - Särkelä, K.
AU - Koppelmäki, K.
AU - Lamminen, M.
AU - Tuomisto, H.L.
AU - Herzon, I.
PY - 2022/9/15
Y1 - 2022/9/15
N2 - Sustainability of livestock production is a highly contested issue in agricultural sustainability discourse. This study aimed to assess the environmental impact of farms using semi-natural grasslands in Finland, or so-called High Nature Value (HNV) farms. We estimated the environmental impact of 11 such farms, including greenhouse gas emissions (GHG), nitrogen (N) balance, land occupation, and carbon storage. We also accounted for unique biodiversity, defined in this study as communities that are dependent on semi-natural grasslands. We compared these to the alternative states of the farms, specifically a hypothetical farm with the same production output but without access to semi-natural grasslands. GHG emissions at the farm level (tCO2eq/ha) in HNV farms were 64% lower than on the alternative farms; GHG emissions at the product level (tCO2eq/t LW) and N balance (N kg/ha) were 31% and 235% lower, respectively. The carbon stocks were 163% higher at farm level. Biodiversity values, indicated by the share of semi-natural grassland in management, ranged from 23% to 83% on HNV farms. Six out of eleven farms would need to increase their arable land occupation by an average of 39% of arable land to fulfil their needs for animal feed if they did not utilize semi-natural grassland. This study contributes to growing evidence that HNV farming systems can support sustainable production by minimising arable land occupation, reducing nutrient loses, and increasing carbon storage while maintaining unique biodiversity.
AB - Sustainability of livestock production is a highly contested issue in agricultural sustainability discourse. This study aimed to assess the environmental impact of farms using semi-natural grasslands in Finland, or so-called High Nature Value (HNV) farms. We estimated the environmental impact of 11 such farms, including greenhouse gas emissions (GHG), nitrogen (N) balance, land occupation, and carbon storage. We also accounted for unique biodiversity, defined in this study as communities that are dependent on semi-natural grasslands. We compared these to the alternative states of the farms, specifically a hypothetical farm with the same production output but without access to semi-natural grasslands. GHG emissions at the farm level (tCO2eq/ha) in HNV farms were 64% lower than on the alternative farms; GHG emissions at the product level (tCO2eq/t LW) and N balance (N kg/ha) were 31% and 235% lower, respectively. The carbon stocks were 163% higher at farm level. Biodiversity values, indicated by the share of semi-natural grassland in management, ranged from 23% to 83% on HNV farms. Six out of eleven farms would need to increase their arable land occupation by an average of 39% of arable land to fulfil their needs for animal feed if they did not utilize semi-natural grassland. This study contributes to growing evidence that HNV farming systems can support sustainable production by minimising arable land occupation, reducing nutrient loses, and increasing carbon storage while maintaining unique biodiversity.
KW - Biodiversity
KW - Carbon footprint
KW - Carbon storage
KW - Environmental impact
KW - Nitrogen balance
KW - Semi-natural grasslands
U2 - 10.1016/j.scitotenv.2022.156267
DO - 10.1016/j.scitotenv.2022.156267
M3 - Article
C2 - 35643142
AN - SCOPUS:85131437099
SN - 0048-9697
VL - 839
JO - Science of the Total Environment
JF - Science of the Total Environment
M1 - 156267
ER -