TY - JOUR
T1 - Whole-farm economic and risk effects of conservation agriculture in a crop-livestock system in western China
AU - Komarek, Adam M.
AU - Li, LingLing
AU - Bellotti, William D.
PY - 2015
Y1 - 2015
N2 - Researchers advocate using conservation agriculture as a tool to improve farmer livelihoods, with crop residue retention being an integral component of conservation agriculture. Crop residues are used for mulch, livestock feed, and fuel material in crop-livestock farming systems. In this article, we conducted long-term simulation modelling to compare the economic effects of different crop residue retention practices for a crop-livestock agricultural household in semi-arid China. We calculated the average profit and net present value (and associated variability) of different crop residue retention practices using planning horizons of 3, 6, 10, and 20 years. Crop residue retention increased grain production, reduced forage production leading to smaller livestock flock sizes, and increased family heating and cooking costs. The net effect was that retaining minimal crop residues gave the highest profits using the three year planning horizon.Full crop residue retention provided the highest profit when the planning horizon exceeded 10 years. Relatively flat economic payoffs associated with changing crop residue usage around the maximum economic payoff existed. Calls for comprehensive crop residue retention are unlikely to be attractive when farmers discount future profits, and when crop residues have significant value as a fuel and feed source. The economic benefits of crop residue retention can take numerous years to eventuate and retaining crop residues also increased simulated ground cover and this positive environmental impact extends beyond individual farm boundaries. Because of these time lags and external environmental benefits, providing financial incentives to retain crop residues during the initial transition years could be a policy option.
AB - Researchers advocate using conservation agriculture as a tool to improve farmer livelihoods, with crop residue retention being an integral component of conservation agriculture. Crop residues are used for mulch, livestock feed, and fuel material in crop-livestock farming systems. In this article, we conducted long-term simulation modelling to compare the economic effects of different crop residue retention practices for a crop-livestock agricultural household in semi-arid China. We calculated the average profit and net present value (and associated variability) of different crop residue retention practices using planning horizons of 3, 6, 10, and 20 years. Crop residue retention increased grain production, reduced forage production leading to smaller livestock flock sizes, and increased family heating and cooking costs. The net effect was that retaining minimal crop residues gave the highest profits using the three year planning horizon.Full crop residue retention provided the highest profit when the planning horizon exceeded 10 years. Relatively flat economic payoffs associated with changing crop residue usage around the maximum economic payoff existed. Calls for comprehensive crop residue retention are unlikely to be attractive when farmers discount future profits, and when crop residues have significant value as a fuel and feed source. The economic benefits of crop residue retention can take numerous years to eventuate and retaining crop residues also increased simulated ground cover and this positive environmental impact extends beyond individual farm boundaries. Because of these time lags and external environmental benefits, providing financial incentives to retain crop residues during the initial transition years could be a policy option.
KW - China
KW - agriculture
KW - crop residues
KW - crops
KW - livestock
UR - http://handle.uws.edu.au:8081/1959.7/uws:30326
U2 - 10.1016/j.agsy.2014.10.013
DO - 10.1016/j.agsy.2014.10.013
M3 - Article
SN - 0308-521X
VL - 137
SP - 220
EP - 226
JO - Agricultural Systems
JF - Agricultural Systems
ER -