Managing nutrient in organic farming system: reliance on livestock production for nutrient management of arable farmland

Organic agriculture is a production system which relies on ecosystem management and ecological processes rather than on the external flow of agricultural inputs. The development of the organic sector has induced a spatial decoupling of livestock and crop production. This has increased the flow of nu...

Full description

Saved in:
Bibliographic Details
Published in:Organic agriculture 2013, Vol.3 (3-4), p.183-199
Main Authors: Foissy, Damien, Vian, Jean-François, David, Christophe
Format: Article
Language:English
Subjects:
agricultural land
Agriculture
atmospheric deposition
Biomedical and Life Sciences
cattle
crop production
crops
ecosystem management
Environment
excreta
farms
grasslands
Humanities and Social Sciences
leaching
Life Sciences
livestock production
nitrogen
nitrogen content
nitrogen fixation
nutrient management
nutrients
organic fertilizers
organic matter
organic production
phosphorus
Plant Sciences
potassium
recycling
seeds
soil
stocking rate
straw
surpluses
Sustainable Development
volatilization
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Organic agriculture is a production system which relies on ecosystem management and ecological processes rather than on the external flow of agricultural inputs. The development of the organic sector has induced a spatial decoupling of livestock and crop production. This has increased the flow of nutrients that occurs between farms compared to what happens within individual farms. Organic systems have replaced synthetic inputs with site-specific management practices to balance input and output nutrients to ensure short-term productivity and long-term sustainability. This paper addresses the nutrient management of mixed and specialized farming systems, with a special emphasis on the reliance on livestock production for the nutrient management of arable farmland. We assessed the nutrient budgets of nitrogen (N), phosphorus (P), and potassium (K) of 28 organic farms selected according to livestock density from three French counties. The farms were classified as stockless, mixed, and cattle farming systems. A soil surface nutrient budget was calculated for each farm based on inputs (N fixation, excreta, and manure) and outputs (grazing offtake, harvests) on annual crops and grasslands. Inputs due to N atmospheric deposition and seeds and losses due to leaching and volatilization were not considered in this study. Nutrient budgets of the 28 farms revealed N, P, and K deficits, although disparities between farming systems and their geographical location were also observed. Stockless farms presented high N deficit whereas mixed and livestock farming systems presented lower deficits (close to equilibrium) or even surpluses in a county with a high density of livestock farms. Differences between farming systems in terms of P and K budgets followed the same trend, but regional specificities appeared significant in stockless and livestock systems (related to the size of farms and the stocking rate). None of the farms purchased off-farm organic fertilizers when exchanges of manures and straw were observed at the regional scale. When livestock is present on the farm, the nutrient resources came mainly from recycling internal resources (manures, excreta, and N fixation), whereas stockless farming systems purchased organic manure from neighboring farms (14 to 58 % of total N inputs, 10 to 100 % of total P and K inputs). The sustainability of stockless organic farming systems is questioned, noticeably those that were located in regions where resources of organic matter are
ISSN:1879-4238
1879-4246
DOI:10.1007/s13165-014-0060-8