Laboratories

Soil Physics Laboratory​



Soil physics is related with the physical characteristics of soil such as texture, structure, pore size distribution, expansion, shrinking, water and air conductivity, plasticity and water holding capacity, which directly affect the physical characteristics of soil and have significant effects on plant development. Soil Physics laboratory operates to identify the physical properties of soil and by determining their effects on soil fertility, irrigation and land reclamation to solve problem faced during crop production. Samples from farmers, research projects, private or state sector institutions are analyzed. Necessary sample amount for soil physics analyses is 2 kg of soil. ​​

Analyses and Prices:

Soil Physics AnalysisMethodsPrices for 2016 (VAT Included) (TL)

Standard Soil Physics Analyses

Structure, Field Capacity, Wilting Point and Bulk Density

140,00
Moisture (%)Tüzüner 199025,00
Structure (% sand, clay and silt ratio)Tüzüner 199045,00
Field Capacity (%)Tüzüner 199045,00
Wilting Point (%)Tüzüner 199045,00
Bulk Density (gr/cm3)Tüzüner 199032,00
Specific Bulk Density (gr/cm3)Tüzüner 199032,00
Total Porosity (%) Tüzüner 199032,00
Hydraulic Conductivity (cm/h)Tüzüner 199033,00
Structure StabilityTüzüner 199053,00


 

Soil Fertility Analysis Laboratory ​



Soil fertility provides the availability of macro nutrition elements (N, P, K, Ca, Mg, S) and micro nutrition elements (Fe, Zn, Mn, B, Cu, Mo, Cl) which the plants require for being full-grown and giving yield in root zone sufficiently. A proper fertilizing program must be composed by carrying out soil fertility analyses in order to provide the sustainability of soil and develop the soil fertility in agricultural production. Fertility analyses are carried out in our laboratory and proper fertilizing programs are prepared according to the results of analyses and kind of crop.  Necessary sample amount for soil fertility analyses is 2 kg of soil. 

Analysis and Prices:

Soil Fertility AnalysesMethodsPrices for 2016    (VAT Included) (TL)
Saturation (%)TSE 8333                25,00
Total Saline (%)TSE 8334                25,00
pH (waterlogged soil)TSE 8333                25,00
Phosphorus beneficial to plant in soil (P2O5kg/da)Olsen Method                42,00
Potassium beneficial to plant in soil  (K2Okg/da)TSE 8341                42,00
Lime (% CaCO3)ScheiblerCalcimeter                23,00
Organic Material (%)Walkley-Black Method                41,00
Total Nitrogen (% N)MikroKjeldahl Method                85,00
Microelement (uptakableFe,Cu.Zn,Mn) (ppm)Lindsay and Norwell, (1978)/ ICP-OES                76,00
For each added element                25,00
Takable Boron (B)Azomethine-H Method                70,00
Standard Soil Fertility Analysis (Package-1) (Saturation, Saline, pH, Lime, Phosphorus, Potassium, Organic material)
               55,00
Standard Soil Fertility Analysis (Package-2) Saturation, Saline, pH, Lime, Phosphorus, Potassium, Calcium, Magnesium Organic material)
               80,00
Soil Fertility Analysis (Package-3) (Saturation, Saline, pH, Lime, Phosphorus, Potassium, Iron, Copper, Manganese, Zinc, Organic material)
               130,00
Soil Fertility Analysis (Package-4) (Saturation, Saline, pH, Lime, Phosphorus, Potassium, Calcium, Magnesium Organic material, Iron, Copper, Manganese, Zinc).

               15,00
Total Heavy Metal AnalysisWet Decomposition (aqua regia)/ICP OES Method               90,00
For each added element               25,00
Heavy Metal Reading (Extracted Sample)ICP OES               56,00
Salinity-Alkalinity Analysis
% SaturationTSE 83332 5,00
% Total Saline (water saturated soil)TSE 833325,00
Electrical Conductivity (ds/m) (in extract)TSE 833325,00
pH (water saturated soil)TSE 833325,00
pH (in extract)TSE 833325,00
Dissolvable Cations in Saturation Extract (me/lt)Richards, L. A. 1954
Ca++ (me/lt),42,00
Mg++ (me/lt), 42,00
Ca++ + Mg++31,00
Na+ (me/lt), 42,00
K+ (me/lt)42,00
Dissolvable Anions in Saturation Extract (me/lt)Richards, L. A. 1954
CO3- - (me/lt)42,00
HCO3- (me/lt)42,00
Cl- (me/lt) 42,00
SO4- - (me/lt)44,00
Cation Exchange Capacity (C.E.C.) (me/100 gr)Bower, C. A. 1952 Sodium Acetate Extraction Method75,00
Replaceable Cations (me/100 gr)Richards, L. A. 1954 Ammonium Acetate Method
Na % (ESP)74,00
K %70,00
Ca %56,00
Mg %55,00
Ca+Mg (Ca+Mg %)58,00
Boron (ppm)Richards, L. A. 1954 Carmine Method70,00
Standard Saline-Alkali Soil Analysis (% Saturation, pH, EC, Ca, Mg, Na, K, CO3, HCO3, Cl, SO4, B, (C.E.C.), Replaceable Na,) 410,00



​Irrigation Water Analysis Laboratory​



The water used in irrigation consists of dissolved compounds in sundry amounts. These are relatively few but substantially dissolved solids. They emerge as a result of the dissolution of salt resources such as lime, gypsum and the decomposition of the rocks and the soils. 

The availability of the water for irrigation considerably depends on the kind and amount of the containing salts. If qualified water is not used in irrigation, the amount and quality of the crop decreases and salinity and desertification problem rises in the soil in a short span of time. Besides, the surplus toxic elements (boron) in irrigation water disserve the plant. For this reason, the irrigation water must be analyzed in terms of salinity, sodium ratio and toxic elements before the utilization.  

In the laboratory, samples including the research projects are analyzed primarily and besides samples from farmers, private or state sector are analyzed. As a result of the analysis results, the availability of the irrigation waters in terms of agriculture is indicated in the reports.  In case of the utilization of inappropriate waters and the aggregate waters because of the water source constraint, the precautions are indicated in the report.  

 

Analysis and Prices:

Irrigation Water AnalysesMethodsPrices for 2016 (VAT Included) (TL)
Electrical Conductivity (dS/m)TS 974817,00
pHTS 1052317,00
Cations (me/l)Titrimetric/ Flame Photometry Method.
Calcium (Ca)21,00
Magnesium (Mg)21.00
Total Hardness (Ca + Mg)32,00
Sodium (Na)21,00
Potassium (K)21,00
Anions (me/l)Titrimetric Method.
Carbonate (CO321,00
Bicarbonate (HCO3)21,00
Chlorine (Cl)21,00
Sulphate(SO4)37,00
Boron (ppm)Carmine Method25,00
Trace Metals-1 (Fe, Cu, Zn, Mn)ICP OES76,00
For Each Added Element25,00
Trace Metals-2 (Cr, Cd, Co, Pb, Mo)ICP OES90,00
For Each Added Element20,00

Standard Irrigation Water Analysis

(pH , EC, Ca, Ca+Mg, Na, K, B, CO3, HCO3, Cl, SO4)

115,00​


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