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Current Version of the SSNM Approach
Through research on the development and evaluation of SSNM, much
data were obtained on the relationship between yield of unmilled
rice and total N, P, and K in the mature rice crop. As a result,
the uptake of N, P, and K by a mature rice crop with harvest
indices of 0.45 to 0.55 can be estimated from grain yield with
sufficient reliability. Measurement of N, P, and K in grain and
straw is no longer required for determining fertilizer N, P, and
K rates by the SSNM approach. Grain yield targets and grain
yield in nutrient omission plots can now be directly used in a
simplified manner by estimating fertilizer N, P, and K
requirements as follows:
a. Establish an attainable yield target for
farmers’ fields.
The yield target in the SSNM approach is directly used to
calculate fertilizer rates for farmers’ fields. It
consequently must be reasonably attainable by farmers. A
yield target higher than one attainable by farmers would
lead to recommendations of more fertilizer than required for
high use efficiency and profit. A yield target below that
realistically attainable by farmers could result in
suboptimal yield and profit. Grain yield from a fully
fertilized plot with no nutrient limitations and good
management (for example, the NPK plot or NPK plus
micronutrient plot in the nutrient omission plot technique)
can be used to estimate the yield target.
b.
Approximate a fertilizer N rate and formulate dynamic N
management.
The difference between the yield target and N-limited yield
(i.e., yield with no N fertilizer and no limitation of other
nutrients) provides an
estimate of anticipated crop response
to fertilizer N. The estimated yield response to fertilizer
N and a targeted efficiency for fertilizer N use are used to
approximate the total
requirement of the crop for fertilizer N, which is
dynamically apportioned among multiple times of application
to best match the crop’s need for N. For more details see
N management.
c.
Estimate field-specific nutrient-limited yields.
Nutrient-limited yields are determined by the nutrient
omission plot technique. The K-limited yield is determined
in a K omission plot receiving no K fertilizer but
sufficient N and P to ensure they do not limit yield. The
P-limited yield is determined in a plot receiving no P
fertilizer but sufficient supply of other nutrients.
d. Determine
fertilizer P and K rate.
The crop’s need for fertilizer P is based on a comparison of
the yield target and P-limited yield, whereas the crop’s
need for fertilizer K is based on a comparison of the yield
target and K-limited yield. The SSNM approach advocates
sufficient use of fertilizer P and K to both overcome P and
K deficiencies and maintain soil P and K fertility. For more
details see
P and K management.
The evaluation and promotion of this simplified SSNM approach
spread through the RTOP workgroup in 2003–2004 to about 20
locations in tropical and subtropical Asia, each representing
large areas of intensive rice farming under irrigated or
favorable
rainfed
conditions. The countries involved included Bangladesh, China,
India, Indonesia, Myanmar, Thailand, Philippines, and Vietnam.
The evaluation and promotion of SSNM for rice continues
throughout Asia from 2005 to 2008 through the
Productivity and
Sustainability workgroup
of the IRRC.
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