With the concentration of poultry production and increase in operation size
in several regions of the U.S., more manure is applied to agricultural lan
d. This application of manure has resulted in more P being added than crops
require, an accumulation in soil P, and increased potential for P loss in
surface runoff. This situation has been exacerbated by manure management be
ing N-based. Increased outputs of P to fresh waters can accelerate eutrophi
cation, which impairs water use and can lead to fish kills and toxic algal
blooms. As a result, information is needed on the effect of poultry product
ion on the fate of P in agricultural systems so that compatible production
and water quality goals can be met. Overall, these goals will be met by foc
using on ways to increase Fuse-efficiency by attempting to balance inputs o
f P in feed and fertilizer into a watershed with output in crop and livesto
ck. This will involve refining feed rations, using feed additives to increa
se P absorption by the animal, moving manure from surplus to deficit areas,
finding alternative uses for manure, and targeting conservation practices,
such as reduced tillage, buffer strips, and cover crops, to critical areas
of P export from a watershed. These critical areas are where high P soils
coincide with parts of the landscape where surface runoff and erosion poten
tial is high. Development of management systems that address both productio
n and environmental concerns must consider the socioeconomic and political
impacts of any management changes on both rural and urban communities, and
of the mechanisms by which change can be achieved in a diverse and disperse
d community of land users.