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    <subfield code="d">26559</subfield>
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  <controlfield tag="003">OSt</controlfield>
  <controlfield tag="005">20220827115316.0</controlfield>
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    <subfield code="a">634.1</subfield>
    <subfield code="b">NAG/PR</subfield>
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    <subfield code="a">Nageswara Rao D V K </subfield>
  </datafield>
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    <subfield code="a">Productivity Classification of Soils Under Rubber (Hevea brasiliensis Muell. Arg) in Kerala</subfield>
  </datafield>
  <datafield tag="260" ind1=" " ind2=" ">
    <subfield code="a">Vellanikkara</subfield>
    <subfield code="b">Department Of Soil Science And Agricultural Chemistry,College Of Horticulture</subfield>
    <subfield code="c">2000</subfield>
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  <datafield tag="502" ind1=" " ind2=" ">
    <subfield code="b">PhD </subfield>
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    <subfield code="a">A project titled "Productivity classification of 
soils under rubber (Hevea brasiliensis Muell. 
Arg.) in Kerala was taken up in the College 
of Horticulture, Vellanikkara during 1996- 
1997. The objectives of the study were; (1). 
To study the soil taxonomy of selected 
prominent soils under rubber in Kerala, (2). 
To classify the soils according to the norms 
of fertility capability classification, (3). To 
attempt an introduction of local modifiers 
into the FCC based on specific crop 
requirements of rubber plant, (4). To group 
the soils by numerical classification 
technique using important soil properties, (5). 
To test the direct and indirect effects of 
relevant soil factors on the growth of hevea 
and (6). To identify the spectral signature of 
rubber using multi band satellite imagery. 
The entire study was conveniently divided 
into four experiments. 
In the first experiment, six prominent 
physiographic units, present in Wayanad, 
Malappuram, Thrissur, Kottayam and 
Pathanamthitta districts were selected for the 
study. In each physiographic unit, three soil 
profiles were cut one each from the top, middle 
and bottom of the catena of a hill re ascertain 
the impact of the slope on the soil properties. 
Soils were characterised and ciassited 
zccording to the norms of soil taxonomy. 
Ir. ~,e second experiment, the soils from the 
above soil profile were characterised for 
ff;~i;lity capability classification. An attempt 
W~; made to introduce a local modifier 'm' to 
denote the status of available Mg, using 0.08 
crnol kg' in the FC classes identified. In this 
experiment the soils studied for taxonomic 
classification were subjected to numericai 
 

	classification 	using 	Euclidean 	distance 
measure. 
In the third experiment 14 sites in Thrissur 
district were selected for studying the soil-plant 
relationships. Soil samples were collected at 
bimonthly intervals between November 96 and 
September 97 to understand the influence of 
weather on the availability of nutrients. Plant 
girth and height were recorded simultaneously 
while collecting soil samples. Soils were 
analysed pH, organic carbon, total nitrogen, 
exchangeable Ca, Mg, K, Na, Al and DTPA 
extractable Fe, Mn, Cu and Zn. An attempt 
was made to relate the dynamics of nutrient 
availability to the plant growth. 
In the fourth experiment, two rubber estate 
areas, one in Thrissur and the other in. 
Kottayam districts were selected for studying 
the spectral signature of rubber. Satellite data 
pertaining to different dates were procured' 
studying temporal variations in reflectance. 
The reflectance of rubber along with teak and 
mixed forest was studied in individual bands, 
false colour composite and normalised 
difference vegetation index images. A 
supervised classification was performed in the 
images of both the study areas. 
The soil taxonomy indicated that the soils of 
all the reaches in the selected physiographic 
units belong to Ustic Kandihumults, Ustic 
Kanhaplohumults, Typic Kandiustults, 
Ustoxic Dystropepts, Typic Kanhaplustults. 
Careful observation of the taxonomy of soils 
indicated that there are differences in soil 
properties caused by the topography resulting 
into a catenary sequence of soil development. 
However, in some physiographic units, there 
were no differences in the taxonomic position 
 
among the reaches though there were known 
differences in certain soil properties, which 
might have been caused by the slope. The 
threshold values used for soil taxonomic 
classification were such that the soils with 
intragroup distance were not subdivided 
further into similar taxonomic 'position in all 
the three reaches. 
There were differences among reaches of 
slope and physiographic units with reference 
	to fertility capability classification. 	The 
	differences in FCC of the 	same 
physiographic units might be mainly due to 
differences in topography in addition to other 
local variations. Among physiographic units 
however, both similarities and differences 
were observed. The similarities might be due 
to the fact that many of the condition 
modifiers were measured only in the surface 
soil and similarities in these properties cluster 
the soils into one group, though inherently 
there could be differences in several other 
features. The differences might be due to 
variations in slope, parent material or any 
other feature, which could influence the 
composition of surface soils. Inclusion of a 
condition modifier, 'm' could identify three 
FC classes with deficiency in available Mg. 
In numerical classification of soils it was 
seen that all soils belonging to Ustic 
Kanhaplohumults were grouped with some 
members, however, forming individual 
clusters because of intragroup distance. 
Different soil taxa viz. Typic Kanhaplustults, 
Typic Kandihumults and Ustoxic 
Dystropepts formed individual clusters. 
However, Typic Kandihumults were merged 
to the cluster of Ustic Kanhaplohumults 
which might be because of weighted 
averaging of soil properties in A and B 
horizons. It is seen that similar taxa were 
grouped differently in numerical taxonomy 
. because of the quantitative differences in soil 
 

165 
properties within the same taxon, where in 
soil taxonomy certain fixed values of the 
attributes are used to classify the soils. 
The data on soil variables measured in 
different experimental sites at different times 
of observations indicated clearly that sites 
varied in soil properties. Similarly there were 
seasonal changes in soil properties from time 
to time. Seasonal changes in plant growth 
were seen in all' the experimental sites. 
Different rates of growth in the experimental 
sites were noticed in response to changes in 
weather from a dry season to a wet season, 
which also manifested III differential 
availability of nutrient elements. 
The factor analysis of the data on soil variables 
measured at different times of observation 
identified two important factors i.e. 'Soil 
Reaction Control Factor' and 'P Limitation 
Factor' which explained much of the variability 
in the data on soil properties. The regression 
analysis identified that the growth was 
associated with 'P Limitation Factor'. It is 
understood that the soil temperature and soil 
moisture were the most important parameters 
regulating the availability of elements 
particularly that of P and K. The limitation 
posed by reduced soil moisture, increasing 
temperature and DTPA-Mn on the availability 
of P was realised. Factor analysis also 
highlighted the role of K and Zn in the growth . 
The effects of various soil properties on growth 
performance were disentangled into direct and 
indirect effects in the path analysis. It was 
observed in general that the path model could 
explain variability in plant growth to a 
sufficiently larger extent emphasizing the role 
of soil parameters and also highlighting the 
interaction effects on plant growth. 
While attempting to test the agronomic utility 
of soil taxonomy and fertility capability 
 
, 
 

classification, it could be noticed that the soil 
taxonomy could give a general order of 
ranking based on plant growth among different 
taxa. However, it was also noticed that same 
taxon was ranked low in some experimental 
sites calling for attention while interpreting the 
agronomic utility of soil taxonomy. It was 
seen earlier that the 'Soil Reaction Control 
Factor' and 'P Limitation Factor' influenced 
the growth performance of rubber plants. 
Soil taxonomy, however, did not contain any 
information about the local variations in 
these 'factors' and thus could not explain the 
variations in plant performance within the 
same taxon. 
Discrepancies were found while studying the 
agronomic utility of the FCC concept also. 
Soils deficient in available K and Mg besides 
other known limitations were ranked high. It is 
felt that efforts should be on to include not 
 

166 
only the limited soil variables but also the 
variables which limit the availability of the 
nutrient elements, to make the FCC system 
more meaningful. 
~t was clear from the study of spectral 
signatures that rubber could easily be separated 
from' other vegetation types owing to its 
specific spectral behaviour particularly in band 
4 (0.77 - 0.86.Jlm). It was also seen that 
studies on temporal changes in spectral 
behaviour of rubber might help in separating it 
from teak as well as mixed forest. It could be 
drawn from the data that mean reflectance of 
above 60 per cent in band 4 might indicate the 
vegetative cover of rubber. Similarly, the 
image pertaining to the period when complete 
canopy is developed would help in delineating 
rubber from teak and mixed forest in these 
study areas. 

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    <subfield code="u">https://krishikosh.egranth.ac.in/handle/1/5810014993</subfield>
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    <subfield code="a">KAUCLV</subfield>
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    <subfield code="d">2014-03-18</subfield>
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    <subfield code="o">634.1 NAG/PR</subfield>
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    <subfield code="r">2014-03-18 00:00:00</subfield>
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