TY - JOUR
T1 - Soil fertility in organic farming systems - fundamentally different?
AU - Stockdale, E. A.
AU - Shepherd, M. A.
AU - Fortune, S.
AU - Cuttle, Steve P.
N1 - Stockdale, E. A., Shepherd, M. A., Fortune, S., Cuttle, S. P. (2002). Soil fertility in organic farming systems - fundamentally different? Soil Use and Management, Soil fertility in organically managed soils, 18, (Suppl.), 301-308
Sponsorship: DEFRA
PY - 2002
Y1 - 2002
N2 - Soil fertility is de®ned as the ability of a soil to provide the conditions required for plant growth.
It is a result of the physical, chemical and biological processes that act together to provide nutrients, water,
aeration and stability to the plant, as well as freedom from any substances that may inhibit growth. Within
this de®nition, it is useful to distinguish between those components of fertility which change relatively
slowly, perhaps over the course of a rotation, or in some cases, decades, and the more immediate contribution
from materials such as fertilizers and manures. The term `inherent fertility' is used to describe these
more stable characteristics, while recognising that they are, to a large extent, products of soil management.
We conclude that, although nutrient management in organically managed soils is fundamentally different to
soils managed conventionally, the underlying processes supporting soil fertility are not. The same nutrient
cycling processes operate in organically farmed soils as those that are farmed conventionally although their
relative importance and rates may differ. Nutrient pools in organically farmed soils are also essentially the
same as in conventionally managed soils but, in the absence of regular fertilizer inputs, nutrient reserves in
less-available pools will be of greater signi®cance.
AB - Soil fertility is de®ned as the ability of a soil to provide the conditions required for plant growth.
It is a result of the physical, chemical and biological processes that act together to provide nutrients, water,
aeration and stability to the plant, as well as freedom from any substances that may inhibit growth. Within
this de®nition, it is useful to distinguish between those components of fertility which change relatively
slowly, perhaps over the course of a rotation, or in some cases, decades, and the more immediate contribution
from materials such as fertilizers and manures. The term `inherent fertility' is used to describe these
more stable characteristics, while recognising that they are, to a large extent, products of soil management.
We conclude that, although nutrient management in organically managed soils is fundamentally different to
soils managed conventionally, the underlying processes supporting soil fertility are not. The same nutrient
cycling processes operate in organically farmed soils as those that are farmed conventionally although their
relative importance and rates may differ. Nutrient pools in organically farmed soils are also essentially the
same as in conventionally managed soils but, in the absence of regular fertilizer inputs, nutrient reserves in
less-available pools will be of greater signi®cance.
U2 - 10.1111/j.1475-2743.2002.tb00272.x
DO - 10.1111/j.1475-2743.2002.tb00272.x
M3 - Article
SN - 0266-0032
VL - 18
SP - 301
EP - 308
JO - Soil Use and Management
JF - Soil Use and Management
IS - S1
ER -