TY - JOUR
T1 - Bridging Gaps in the Agricultural Phosphorus Cycle from an Animal Husbandry Perspective-The Case of Pigs and Poultry
AU - Oster, Michael
AU - Reyer, Henry
AU - Ball, Elizabeth
AU - Fornara, Dario
AU - Mckillen, John
AU - Sørensen, Kristina Ulrich
AU - Poulsen, Hanne Damgaard
AU - Andersson, Kim
AU - Ddiba, Daniel
AU - Rosemarin, Arno
AU - Arata, Linda
AU - Sckokai, Paolo
AU - Magowan, Elizabeth
AU - Wimmers, Klaus
PY - 2018
Y1 - 2018
N2 - Since phosphorus (P) is an essential element for life, its usage and application across agricultural production systems requires great attention. Monogastric species such as pigs and poultry can significantly contribute to global food security but these animals remain highly dependent on the supply of mineral inorganic P in their feeds. Pig and poultry, which represent 70% of the global meat production, are also major P excretors and thus represent important sources of environmental P inputs. Balancing the P cycle within farming systems is crucial to achieve P sustainable and resilient livestock production. Therefore, the interconnection of animal feed, livestock farming, manure, and soil/aquatic ecosystems requires multidisciplinary approaches to improve P management. With regard to a sustainable agricultural P cycle, this study addresses aspects of feeding strategies and animal physiology (e.g., phase feeding, P conditioning, liquid feeding, phytase supplementation, genetics), soil agroecosystems (e.g., P cycling, P losses, P gains), reuse and recycling (e.g., manure, slaughter waste), measures of farmers’ economic performance (e.g., bio-economic models), and P governance/policy instruments (e.g., P quota, P tax). To reconcile the economic and ecological sustainability of animal husbandry, the strategic objective of future research will be to provide solutions for a sufficient supply of high-quality animal products from resource-efficient and economically competitive agro-systems which are valued by society and preserve soil and aquatic ecosystems.
AB - Since phosphorus (P) is an essential element for life, its usage and application across agricultural production systems requires great attention. Monogastric species such as pigs and poultry can significantly contribute to global food security but these animals remain highly dependent on the supply of mineral inorganic P in their feeds. Pig and poultry, which represent 70% of the global meat production, are also major P excretors and thus represent important sources of environmental P inputs. Balancing the P cycle within farming systems is crucial to achieve P sustainable and resilient livestock production. Therefore, the interconnection of animal feed, livestock farming, manure, and soil/aquatic ecosystems requires multidisciplinary approaches to improve P management. With regard to a sustainable agricultural P cycle, this study addresses aspects of feeding strategies and animal physiology (e.g., phase feeding, P conditioning, liquid feeding, phytase supplementation, genetics), soil agroecosystems (e.g., P cycling, P losses, P gains), reuse and recycling (e.g., manure, slaughter waste), measures of farmers’ economic performance (e.g., bio-economic models), and P governance/policy instruments (e.g., P quota, P tax). To reconcile the economic and ecological sustainability of animal husbandry, the strategic objective of future research will be to provide solutions for a sufficient supply of high-quality animal products from resource-efficient and economically competitive agro-systems which are valued by society and preserve soil and aquatic ecosystems.
KW - Agricultural cycle
KW - Bio-economic assessment
KW - Environmental phosphorus burden
KW - Farm animals
KW - Feeding strategies
KW - Monogastric species
KW - Phosphorus recycling
KW - Sustainable phosphorus governance
KW - Agricultural cycle
KW - Bio-economic assessment
KW - Environmental phosphorus burden
KW - Farm animals
KW - Feeding strategies
KW - Monogastric species
KW - Phosphorus recycling
KW - Sustainable phosphorus governance
UR - http://hdl.handle.net/10807/121942
UR - http://www.mdpi.com/2071-1050/10/6/1825/pdf
U2 - 10.3390/su10061825
DO - 10.3390/su10061825
M3 - Article
SN - 2071-1050
VL - 10
SP - 1
EP - 14
JO - Sustainability
JF - Sustainability
ER -