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What is Plant Tissue Analysis?
Plant tissue analysis reveals the health of your crops on a nutrient basis. Used
within an integrated nutritional management program it can play a vital part
in significantly increasing volume and quality of yield.
Plant Tissue analysis at NRM tests for a wide range of nutrients which
includes the total concentrations of the major nutrients N, K, P, Mg, Ca,
Na, S, and trace elements B, Cu, Fe, Mn, and Zn.
When reporting the results they are provided as the total nutrient amounts
and also as nutrient levels (excessive – deficient) determined for each
crop type. This will enable you to assess what is required to bring your
crops nutritional status in line with the sufficient level for optimum growth
and development.
Plant Tissue Analysis is critical to improving crop nutrition and yield yet it
is used far less than soil analysis for nutritional management. Plant tissue
analysis and soil testing go hand in hand and one is not a substitute for
the other.
It is important to know the nutrient levels in your crops as interactions
between all nutrients can affect their growth and development. The addition
of one nutrient can influence the amount taken up of another. For example,
Zn uptake may be reduced by high P application rates. High K levels may
reduce Mg uptake. High rates of NH4+ nitrogen may reduce concentrations
of K in the plant.
Plant tissue analysis can help indicate interactions or antagonism among
plant nutrients.
What are the Benefits of Plant Tissue Analysis?
Effective use of plant tissue analysis provides the nutrient status at
the time of sampling. This may then reveal whether soil nutrient supplies are
adequate. From this there can be improved yield and more efficient fertiliser
applications. This may lead to both economic and environmental benefits.
In addition to this, effective plant tissue analysis can detect unseen
deficiencies (“hidden hunger”) (figure 1) and can be used to confirm
diagnosis made from visual symptoms.
Plant Tissue analysis is most commonly used as a diagnostic tool for future
correction of nutrient problems. However utilising plant tissue analysis from
early growth of crops will allow a corrective fertiliser application that same
season before the problems become yield limiting. When visual symptoms
have occurred a yield loss has already started (figure 1).
Soil analysis data is often most useful when combined with plant tissue
analysis data. The combination of soil and plant tissue analyses (in an
integrated nutrient management program) is the most powerful tool in
diagnosing plant growth problems.
Figure 1: Crop Yield Response curve1
The importance of correct sampling:
Nutrient sufficiency levels have been developed for specific plant parts that
are sampled at specific growth stages, so accurate interpretation of tissue
analysis depends on proper sampling.
If a suspected nutritional problem occurs at a different stage of growth,
collecting samples from both healthy and affected plants, and comparing
their nutrient concentrations, is useful to diagnose a possible nutrient
deficiency as the source of the problem.
For details of the correct sampling procedure please see NRM’s plant tissue
sampling guide which can be found on our website www.nrm.uk.com.
100
90
50
0
Margina
l Zon
e
Marginal Zone
Adequate Zone
Hidden Hunger Zone
Visual Symptom Zone
Critical ConcentrationsDeficiency Toxicity
Def
icie
nt Z
one Toxic Zone
Yiel
d (%
of M
ax)
Plant Nutrient Concentration
Plant Tissue Analysis
(1) Graph taken from: Lester. D., 2010, Plant tissue testing – an under utilised tool for diagnosing hidden hunger in crops, http://www.grdc.com.au/director/events/researchupdates?item_id=1E5D3B8FBCC98C1DE85F73D02926E90C
Part of the Cawood Scientific Group
A review of past data:
NRM has reviewed the analytical data from Plant Tissue analysed at the laboratory for a number of plant species in the last 10 years and a select summary of the
data, using the levels of Deficient—Excessive, can be seen here. Although there is a large quantity of crops achieving a sufficient level it can be seen that there are
deficiencies occurring for particular nutrients which may be limiting your yield.
Are you limiting the yield of your crops? Utilise plant tissue analysis to maximize the potential of your crops.
If you interested in the plant tissue analysis services that NRM can offer please contact either Sean Stevenson or Duncan Rose for further information.
Contact details given below:
Sean Stevenson, Business Development Manager Duncan Rose, Sales Support Assistant Tel: 01344 898 467 | Mobile: 07825 177 895 Tel: 01344 898 467 | Mobile: 07825 177 896 E-mail: [email protected] E-mail: [email protected]
WH
EAT
Excessive High Normal Low Deficient
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80
Ca MgK N Na P S0
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60
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80
B Cu Fe Mn Zn
Major Nutrients Trace Elements
perc
enta
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perc
enta
ge
SUG
AR
BEE
T
Excessive High Normal Low Deficient
0
10
20
30
40
50
60
70
80
Ca K Mg N Na P S B Cu Fe Mn Zn0
20
40
60
80
100Major Nutrients Trace Elements
perc
enta
ge
perc
enta
ge
PEA
S
Excessive High Normal Low Deficient
0
20
40
60
80
100
Ca K Mg N Na P S0
10
20
30
40
50
60
70
80
B Cu Fe Mn Zn
Major Nutrients Trace Elements
perc
enta
ge
perc
enta
ge
OIL
SEED
RA
PE
Excessive High Normal Low Deficient
0
10
20
30
40
50
60
70
80
Ca MgK N Na P S B Cu Fe Mn Zn0
20
40
60
80
100Major Nutrients Trace Elements
perc
enta
ge
i