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  <titleInfo>
    <title>Optimal number and discharge rate of emitters for coconut palm in sandy loam soil</title>
  </titleInfo>
  <name type="personal">
    <namePart>Priya Nair G</namePart>
    <role>
      <roleTerm authority="marcrelator" type="text">creator</roleTerm>
    </role>
  </name>
  <name type="personal">
    <namePart>Suseela P (Guide)</namePart>
  </name>
  <typeOfResource>text</typeOfResource>
  <originInfo>
    <place>
      <placeTerm type="code" authority="marccountry">xx</placeTerm>
    </place>
    <place>
      <placeTerm type="text">Tavanur</placeTerm>
    </place>
    <publisher>Department of Irrigation and Drainage Engineering, Kelappaji College of Agricultural Engineering and Technology</publisher>
    <dateIssued>2000</dateIssued>
    <dateIssued encoding="marc">9999</dateIssued>
    <issuance>monographic</issuance>
  </originInfo>
  <language>
    <languageTerm authority="iso639-2b" type="code">und</languageTerm>
  </language>
  <physicalDescription>
    <form authority="marcform">print</form>
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  <abstract>AgricullurClI productivity is based on the availability of required water at 
proper time. As water is becoming Cl limited resource its efficient utilization is very 
essential. The distribution of rainfall in Kcrala is not adequate to meet the total 
welter requirement of coconut. Coconut in Kerala are mostly grown in sandy soils 
which has a poor water holding capacity. So drip irrigation is the best method of 
irriqation for coconut in this soil. The efficient design of drip irrigation system 
involves the optimal spacing of emitters, correct discharge rate anr' duration of 
inigc\lion based on the movement of soil moisture front. So the study of moisture 
distribution pattern under chip irriU(ltion is helpful in deciding optimum number and 
discharge rate of emitters and duration of irriqation required for coconut palms 
The study was conducted in the river side coconut gc)rdr.n of the 
instruclional Farm, I~CAET, TaVilrH1I. The size of the plot was 28x63m. The soil 
properties viz texture. bulk dcn-itv. infiltration rate, field capacity. hydraulic 
conductivity and permanent \vi!;JI1q point were observed. The drip system was 
installed in the fielc! Two different c!ischarge rates (4 and 8lph) and three 
f 
combination of number of emitters (3,&lt;'1 &amp; 6) were selected for the study. The 
maximum vertical and horizontal advance of soil moisture front for both the 
discharge rates (4 and 8 Iph) were noted. Empirical equations were also developed 
for both vertical and horizontal advance. The soil moisture contents were 
determined at different horizontal anc! vertical distances from the emitter, before 
irriqation, 1 hour, 24 hours and 3 days after irrigation by gravimetric method. The 
soil moisture contour maps were plotted and the moisture distribution efficiency 
was calculated for each treatment at all depths. 
The maximum vertical and horizontal advance was observed for 8 lph 
emitter compared to 4 Iph emitter. The welting front from a single emitter produced 
C\ bulb like \Netting pattern for both the discharges. The size of the wetting bulb 
increased with increase in discharge rate. The study revealed that 4 numbers of 8 
Iph emitters give more uniform distribution compared to all the other treatments. 

</abstract>
  <note>MTech.</note>
  <classification authority="ddc">631.3 PRI/OP</classification>
  <identifier type="uri">http://krishikosh.egranth.ac.in/handle/1/5810104445</identifier>
  <location>
    <url>http://krishikosh.egranth.ac.in/handle/1/5810104445</url>
  </location>
  <recordInfo>
    <recordCreationDate encoding="marc">140128</recordCreationDate>
    <recordChangeDate encoding="iso8601">20220829114734.0</recordChangeDate>
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