Soybean Leaf Loss, Damage May Be Key to Yield Loss
By
Laura Skillman
OWENSBORO, Ky., (Jan. 3, 2007) – An international research team
developing a model to predict yield loss from Asian soybean rust
has found that damaged leaves can greatly impact the crop’s
ability to absorb radiant energy, reducing yields.
The team is made up of members from Brazil
and Louisiana State University and led by University of Kentucky
College of Agriculture crop physiologist Saratha Kumudini. They
began their work in 2005 in Brazil by mimicking the disease –
removing leaves from noninfected plants at the same pace as
infected plants. Their initial thoughts were that defoliation
was the prime culprit, but it was found that simply mimicking
defoliation did not have a good one-to-one correlation with the
actual yield losses from infected fields.
Measurements were also
taken on the amount of necrotic lesions from soybean rust on
leaves that remained on the plant. Using a healthy area leaf
index that takes into account necrotic lesions and defoliation,
the researchers got a much closer relationship between yields in
their test plots and plots with soybean rust.
“We didn’t want to stop
there, we wanted to know if there was a one-to-one correlation
between necrotic lesions and plant productivity, so we went to
Quincy, Fla.,” Kumudini said. “What we were looking for were
leaves with the necrotic lesions and its impact on the plant’s
photosynthetic capacity – productivity level.”
Field work included
looking at leaves in the fields, finding the lesion and taking a
photosynthesis measurement – the plants’ ability to take radiant
energy and turn it into biomass.
“The point is that when
we look at these plants with necrotic lesions, those lesions
have a bigger impact (on photosynthetic capacity) than what you
can see visually,” Kumudini said.
Based on their first
year of data, these researchers believe that soybean
rust-induced yield loss is dependent on growth stage,
defoliation injury and the lesions on the intact leaves.
“So what we are doing in
Kentucky and Louisiana is developing a yield loss prediction
model that looks at healthy leaf area and relates healthy leaf
area to yield,” she said. “We are looking at different maturity
groups, different row widths and saying can we develop a valid
yield loss model. Right now, we are in the model development
stage.”
The yield loss model
will be used to develop an interactive software tool that would
determine the farmer’s yield potential and the predicted yield
loss if rust should defoliate or damage the leaves of the crop.
The model would allow a
producer to weigh the potential yield loss against the cost of
fungicide applications to make sound management decisions. This
risk management tool should improve producers’ net economic
return and guard against unnecessary fungicide applications that
can impact the environment and increase the risk of developing
fungicide resistance, Kumudini said.
Additional research will
be conducted in 2007 with the hopes of having a yield-loss
prediction model ready for use within the next two to three
years. |
