New inexpensive method to detect lime in soil
Date:
December 13, 2021
Source:
University of Adelaide
Summary:
Scientists have developed a new simple, inexpensive and fast method
to detect and measure very low concentrations of agricultural
lime in soils, which is generally a time consuming and difficult
exercise.
FULL STORY ========================================================================== University of Adelaide scientists have developed a new simple, inexpensive
and fast method to detect and measure very low concentrations of
agricultural lime in soils, which is generally a time consuming and
difficult exercise.
==========================================================================
The research is published in leading soil science journal Geoderma.
PhD student and lead author of the study Ruby Hume, developed this method
as part of a Department of Primary Industries and Regions (PIRSA)-led
and Grains Research and Development Corporation-funded project, exploring
novel approaches to address the issue of sub-surface soil acidification
in South Australia's cropping regions.
"Soil acidity can be very damaging to crop production. Approximately
20 per cent of agricultural land in South Australia is affected by the
problem, and this number is expected to double over the next few decades,"
said Ms Hume.
"While it is not a new problem in South Australia, we are now seeing
acidity in regions where it has not been an issue previously, such as in
the Mid-North and the Yorke Peninsula, and clay-rich soils in the South
East." Another big issue the researchers say is the development of acid
layers below the soil surface, which are difficult to detect and treat.
==========================================================================
Lime (calcium carbonate) is typically applied on farms to treat soil
acidity.
To maximise its effectiveness, it is important to understand how the
lime dissolves and moves through the soils.
The new method to detect and measure carbonate in soils uses Mid Infrared
(MIR) spectroscopy. MIR spectroscopy is a relatively well-established
tool in soil chemistry that measures the vibrations of molecular bonds
within the soil when infrared light is shined on a sample.
"With this technology we were able to detect very small amounts of lime
that might get lost amongst the other information that is contained in
the soil," said Ms Hume.
"It is a valuable tool as it is accurate, inexpensive and requires minimal sample preparation." The next stages of this research involve applying
the method to a number of field trials that have been established by
Grain Research and Development Corporation's Acid Soils SA team. These
trials which will be conducted with local farmers across multiple sites in South Australia will involve different liming treatments and incorporation methods that may improve the way farmers manage their soils in the future.
Co-author and Principal PhD Supervisor Associate Professor Luke Mosley
from the University of Adelaide's Environment Institute and School of Biological Sciences said: "We hope that we will be able to detect lime
products through the soil profile and measure if and how these products
are moving through the soil and treating the acidity effectivity.
"The method is also potentially useful for soil carbon storage projects,
which are increasingly being implemented in Australia and globally as
a way to help mitigate climate change." In future research Ms Hume
plans to look at plant spectral responses to acidity and liming, and has
been awarded an Australian Plant Phenomics Facility (APPF) postgraduate internship to explore this with a potted trial at the APPF's Smart House facility, beginning next year.
========================================================================== Story Source: Materials provided by University_of_Adelaide. Original
written by Kelly Brown.
Note: Content may be edited for style and length.
========================================================================== Journal Reference:
1. Ruby Hume, Petra Marschner, Rhiannon K. Schilling, Sean Mason,
Luke M.
Mosley. Detection of agriculturally relevant lime concentrations
in soil using mid-infrared spectroscopy. Geoderma, 2022; 409:
115639 DOI: 10.1016/j.geoderma.2021.115639 ==========================================================================
Link to news story:
https://www.sciencedaily.com/releases/2021/12/211213121816.htm
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