Written for IL SoyAdvisor,
Are you paying enough attention to all the
nutrients your crops need?
Byline: Dave
Rahe
Topic:
Nutrient Management
There are
18 essential nutrients in
plants: Nitrogen, phosphorus and potassium are the most likely to be added as
fertilizer. Water, carbon and oxygen come from air and water. Calcium, magnesium
and sulfur are needed in large amounts as well, and in Illinois we generally
take what we get from nature.
Sulfur now
commonly needs to be added along with the big 3. We add calcium and magnesium
when we lime, although in Southern Illinois we generally come up short on
magnesium in our liming materials. And micronutrients are also essential, but
needed in smaller amounts. Boron, iron, manganese, zinc, copper, chlorine, molybdenum
and cobalt are generally considered essential micronutrients and round out the
18. Some would add silicon to that list as well.
The first step in
getting your micronutrient levels in order is to get your soil pH right. Soil pH
affects the availability of all plant nutrients, but in order to keep
micronutrients available, pH needs to be in the sweet spot between 6.0 and 7.0.
The chart above is from Michigan State University.
Once soil pH is corrected, the next step is to soil test
for micronutrients. It is surprising how many people still say that testing is
not needed for micronutrients. In the modern world, it costs very little to get
the extra data. Another rub is, micronutrient testing is thought to be
unreliable in determining a plant or yield response to soil test levels. My
response is that you need to start somewhere.
If you still want more data, I have found tissue sampling
to be useful in determining whether micronutrient deficiencies exist. Last
year, I had some soils with relatively low manganese test levels, but by tissue
testing, I found that manganese wasn’t an issue. Tissue sampling in soybeans is
done at R-1 or R-3 growth stages. North Central States has a publication on
Managing
Micro-Nutrients for Soybean Production in the North Central Region.
A few cautions are in order concerning tissue testing:
·
Time of day sampled can make a difference.
·
Sometimes dust on the plant can skew results.
·
Don’t test when the crop is stressed. Of course,
it will show deficiencies, but the plants are unlikely to respond to treatment.
After collecting your data and determining you have a
problem, what do you do about it? First off keep in mind that micronutrients
can be toxic if over applied. Soybeans are especially sensitive to boron. Copper can be toxic at as little as 10 ppm. I
work on some soils where copper is over 100 ppm caused by industrial pollution,
which is very difficult to manage.
Many researchers report that a blanket application of
micronutrients without some indication they are needed isn’t economically wise.
If treatments are needed during the growing season, foliar applications can be effective
in treating symptoms. I have also found that soil applied micronutrients can be
effective in treating low soil test levels. Sometimes soil test levels remain
at desired levels for several years after treatment. I suspect we are
stimulating microbes who will consume and then recycle micronutrients back into
the soil.
This leads to the question about biological treatments
for micronutrients. One of the reasons that pH between 6 and 7 is so important
is that it is ideal for microbial activity. But the big question is, can I
improve micronutrient availability by using one of the new biological seed
treatments? I think biological treatments can work, but it seems to be on a farm
by farm and year by year basis, so if you want to try biologicals, you should
also be prepared to do some strip trials to see what works on your farm.
There are also some farmers using silicon as a
fertilizer. Silicon is one of the most abundant elements.
The building framework of our soils is
alumno-silicate clays. There should be enough available in most soils, however
some trials have shown a good response to fertilizer silicon. The downside is
that we have little idea on response or economics and currently there is no soil
test for available silica. To learn more about this element click
Silicon
Fertilizer Gaining Ground.
In summary, micronutrient deficiency isn’t a common
problem in soybean production, especially when pH is maintained between 6 and
7. Soil and tissue tests can be useful in identifying micronutrient issues, and
microbial treatments may be useful as well. Finally, keep your eye on silicon
as an emerging fertilizer.
