LaMotte GS-02 User Manual

Code 5270

Model GS-02

GREENHOUSE

SOIL

testing outfit

L M

o

tt

LaMOTTE COM PANY

Helping Peo ple Solve An a lyt i cal Challenges

PO Box 329 • Chestertown • Mary land • 21620 • USA

800-344-3100 • 410-778-3100 (Out side U.S.A.) • Fax 410-778-6394

Visit us on the web at www.lamotte.com

SM

10/01

TA BLE OF CON TENTS

PAGE

Accessories ............................................................................................... 3

Use of the Octet Comparator ...................................................................3

Sampling Procedure ................................................................................ 4

Preparing the Soil Extract ....................................................................... 5

pH ........................................................................................................... 6

Nitrate Nitrogen ...................................................................................... 7

Phosphorus............................................................................................... 8

Potassium ................................................................................................ 9

Calcium and Magnesium ................................................................. 10-11

TI TRA TION A • CAL CIUM & MAG NE SIUM

1. Fill test tube (0778) to 5 mL line with diluted soil extract. Dilute to
10 mL line with deionized water.

2. Add 5 drops of Calcium-Magnesium Inhibitor Reagent (3922). Swirl
to mix. Wait 5 minutes.

3. Add 5 drops of *Calcium & Magnesium Buffer (5126). Swirl to mix.

4. Add 10 drops of *CM Indicator (6522). Swirl to mix. Solution will

turn red.

5. Fill the Direct Reading Titrator (0384) with Standard EDTA Reagent
(5254). Insert Titrator tip into the center hole of the test tube cap.

6. While swirling the tube, slowly press the plunger to titrate sample
until color changes from red to blue.

7. Read the result where the plunger tip meets the scale. Multiply by

5.16. Record as Value A.

TI TRA TION B • CAL CIUM

1. Fill test tube (0778) to 5 mL line with diluted soil extract. Dilute to
10 mL line with deionized water.

2. Add 2 drops of *Inhibitor Reagent (9258). Swirl to mix.

3. Add 2 drops of *TEA Reagent (3921). Swirl to mix.

4. Add 8 drops of *Sodium Hydroxide Reagents w/Metal Inhibitors

(4259). Swirl to mix.

5. Add 1 Calcium Hardness Indicator Tablet (T-5250). Cap and swirl
until tablet disintegrates. Solution will turn red.

6. Fill the Direct Reading Titrator (0384) with Standard EDTA Reagent
(5254). Insert Titrator tip into the center hole of the test tube cap.

7. While swirling the tube, slowly press the plunger to titrate sample
until color changes from red to blue, and does not revert to red for at
least one minute.

8. Read the result where the plunger tip meets the scale. Multiply by

5.16. Record as Value B.

FI NAL RE SULTS

Calcium Titration Value B x 0.4 = ppm Ca

Magnesium 0.24 (Value A-Value B) = ppm Mg

NOTE: To obtain results in lb/acre, multiply results by 2.1111

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CAL CIUM AND MAG NE SIUM

The Schwarzenbach EDTA titration, used to determine calcium and
magnesium levels, involves two separate titrations. The first titration
determines the combined calcium and magnesium level, and the second
titration indicates the calcium level only. Magnesium is determined by
calculation.

Carefully read the Direct Reading Titrator Instruction Manual before
performing titrations.

QUAN TITY CON TENTS CODE

30 mL Calcium-Magnesium Inhibitor Reagent 3922-G
30 mL *Calcium & Magnesium Buffer *5126-G
2 x 15 mL *CM Indicator Reagent *6522-E
250 mL Standard EDTA Reagent 5254-K
15 mL *Inhibitor Solution *9258-E
15 mL *TEA Reagent *3921-E
30 mL *Sodium Hydroxide Reagent

w/Metal Inhibitors *4259-G
100 Calcium Hardness Indicator Tablets T-5250-J
1 Graduated Cylinder, glass, 25 mL 0417
1 Beaker, plastic, 50 mL 0944
1 Test Tube, 5-10-15 mL, w/cap 0778
1 Direct Reading Titrator, 0 - 1000 range 0384

*WARNING: Reagents marked with a * are considered hazardous substances.
Material Safety Data Sheets (MSDS) are supplied for these reagents. for your
safety, read label and accompanying MSDS before using.

AC CES SORIES

QUAN TITY CON TENTS CODE

1 Demineralizer Bottle 1155
1 Graduated Cylinder, 25 mL, glass 0417
6 Syringes, 60 mL, plastic 0943
6 Beakers, 50 mL, plastic 0944
2 Filter Paper, 2.5 cm, 100/pk 0947
1 Extraction Stand 1110
To order individual reagents or test kit components, use the specified code

number.

USE OF THE OCTET COM PARA TOR

The Octet Comparator contains eight permanent
color standards. A test sample is inserted into the
openings in the top of the comparator. The sample
can then be compared to four color standards at
once, and the value read off the comparator. For
optimum color comparison, the comparator should
be positioned between the operator and a light
source, so that the light enters through the special
light-diffusing screen in the back of the
comparator. Avoid viewing the comparator against
direct sunlight or an irregularly lighted
background.

DI LU TION OF SOIL EX TRACT

1. Use the graduated cylinder (0417) to transfer 10 mL of soil extract to

a 50 mL beaker (0944).

2. Add 10 mL of deionized water. Mix.

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3

SAM PLING PRO CE DURE

It is important to gather a representative soil sample to achieve
meaningful results. The following instructions will help achieve a
representative sample.

1. Use a soil probe or similar device to collect sample.

2. Wait at least six hours after watering to sample.

3. If dry fertilizer is used, wait 5 days after application to sample. If

fertilizer is applied through a liquid injector system, wait at least 24
hours after application to sample.

4. Scrape away mulch and top c“ of soil.

5. Collect sufficient soil cores (10 - 15) to gather at least 1a pints of

soil.

WHEN TO SAM PLE

Many fertilizer problems may be avoided by sampling stockpiles of soil
mixes before adding any fertilizer. Once the fertility level of the basic soil
mix is established, a suitable soil fertility program can be implemented.
Fertilizer should be mixed with the soil according to the soil test results,
taking into account the use of a fertilizer injection system.

For all greenhouse crops, the soil should be sampled and tested prior to
seeding or planting. No additional sampling is necessary for bedding
plants and potted plants unless a problem develops. A greenhouse
operation specializing in continuous production of one or two crops will
want to sample the soil as the crop is finishing out. This will give a good
indication of the fertility level which has been maintained.

For bench crops, the soil should be sampled every three months. This will
enable greenhouse operators to maintain good soil fertility levels and
avoid nutritional problems.

For vegetables, the soil should be sampled before fertilization or planting.
This will enable the grower to use the proper kinds and amount of
fertilizer. Sampling the soil which the crop is growing will indicate
whether adequate nutrient levels are being maintained.

PO TAS SIUM

QUAN TITY CON TENTS CODE

50 *Potassium Reagent B Tablets *5161-H
250 mL *Potassium Reagent C *5162-K
3 Test tubes, Potash “A” 0245
2 Test tubes, Potassium, glass 0232
1 Potassium Reading Stand 0946

*WARNING: Reagents marked with a * are considered hazardous substances.
Material Safety Data Sheets (MSDS) are supplied for these reagents. For your
safety, read label and accompanying MSDS before using.

PRO CE DURE

1. Use a 1 mL pipet (0354) to add 1 mL of soil extract to the Potash “A”
tube (0245). Dilute to line with deionized water.

2. Add one *Potassium Reagent B Tablet (5161). Cap and mix until
tablet disintegrates.

NOTE: The temperature of *Potassium Reagent C and the sample
must be kept between 20 - 27° C (68 - 80° F). On warm days, the
*Potassium Reagent C and test tube containing *Potassium Reagent
B may be cooled by placing them in cold water before mixing.

3. Slowly fill test tube to upper mark with *Potassium Reagent C
(5162), allowing *Potassium Reagent C to run down the side of the
tube. Swirl to mix. A precipitate will form if potassium is present.

4. Place an unmarked tube (0232) in the clip of the Potassium Reading
Stand (0946).

5. Use the pipet (0364) to add the reacted sample slowly, allowing it to
run down the side of the tube. Looking down through the tube, slowly
add reacted sample until the black line just disappears.

6. With the bottom of the tube resting on the plate, compare the sample
level to the scale. Read result from scale.

7. Multiply reading by 3. Record as Potassium.
NOTE: The test result is multiplied by 3 because the original

dilution was 1:3. If a different dilution factor is used, multiply by the
appropriate factor.

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PHOS PHO RUS

QUAN TITY CON TENTS CODE

60 mL *VM Phosphate Reagent *4410-H
30 mL *Reducing Reagent *6405-G
2 Pipets, 1.0 mL, plastic 0354
1 Pipet, plain 0352
3 Test tubes, 5 mL, glass, w/caps 0230
1 Phosphorus Comparator 5274

*WARNING: Reagents marked with a * are considered hazardous substances.
Material Safety Data Sheets (MSDS) are supplied for these reagents. For your
safety, read label and accompanying MSDS before using.

PRO CE DURE

1. Use a 1 mL pipet (0354) to add 1 mL of soil extract to a test tube
(0230). Dilute to 5 mL mark with deionized water.

2. Use a second 1 mL pipet (0354) to add 1 mL of *VM Phosphate
Reagent (4410). Cap and mix. Wait 5 minutes.

3. Use the plain pipet (0352) to add 3 drops of *Reducing Reagent
(6405). Cap and invert to thoroughly mix contents.

4. Inset test tube into the Phosphorus Comparator (5274). Match
sample color to a color standard. Record as ppm Phosphorus.

PRE PARING THE SOIL EX TRACT

A single soil extract is used for all the tests. Between 17 and 18 mL of soil
extract are needed to complete the series of tests. Because of the variable
nature of greenhouse mixes, it is not always possible to obtain the required
amount of extract from a single extraction. Therefore, it is recommended
that the operator carry out the extraction in duplicate until it has been
determined that a single extraction will provide a sufficient amount of
extract.

NOTE: The Demineralizer Bottle (1115) will be the source of all
deionized water for these procedures. Read the Demineralizer Bottle
Instructions before proceeding.

1. Remove plunger from 50 mL syringe (0943).

2. Place filter paper on disc (0947) in the barrel of syringe, centering it

over the discharge hole. Moisten paper with a few drops of deionized
water.

3. Cover the discharge tip of the syringe with a black rubber bulb.

4. Fill the syringe to within 1a“ of the top with well mixed, unscreened

soil sample.

5. Use the Demineralizer Bottle (1155) to add deionized water to the
soil. Continue adding deionized water a little at a time until the soil is
saturated, and a v“ layer of water is standing on top of the soil.

6. Place the syringe in foam stand. Wait at least 2 hours for the
extraction to occur.

7. Place the syringe in the Extraction Stand (1110). Remove the black
rubber bulb from the tip of the syringe.

8. Place a plastic beaker (0944) under the syringe top. Insert the
plunger, and exerting pressure on the plunger, force the water through
the soil, into the beaker. The extract is now ready to be used in the
tests.

AL TER NA TIVE LAB O RA TORY PRO CE DURE

If laboratory facilities are available, the following procedure may be used
to obtain the soil extract.

1. Measure 150 to 250 mL of well mixed, but not screened, soil.

2. Wet soil until saturated. Mix to form a paste. Let sit for at least 2

hours.

3. Place soil on a piece of dry filter paper in a Buchner funnel. Apply
suction until 10 to 20 mL of extract is collected.

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5

pH

QUAN TITY CON TENTS CODE

60 mL *Hydroculture pH Indicator *5132-H
3 Test tubes, 5 mL, glass, w/caps 0230
1 Soil Comparator, pH, 4.8 - 7.6 5304

*WARNING: Reagents marked with a * are considered hazardous substances.
Material Safety Data Sheets (MSDS) are supplied for these reagents. For your
safety, read label and accompanying MSDS before using.

PRO CE DURE

1. Fill a test tube (0230) to 5 mL line with soil extract.

2. Add 10 drops of *Hydroculture pH Indicator (5132). Cap and invert

to mix.

3. Place test tube into the Soil pH Comparator (5304). Match sample
color to a color standard. Record as pH.

NI TRATE NI TRO GEN

QUAN TITY CON TENTS CODE

60 mL *Mixed Acid Reagent *V-6278-H
120 mL *Mixed Acid Reagent *V-6278-J
5 g *Nitrate Reducing Reagent *V-6279-C
3 Test tubes, 2.5 & 5 mL, glass, w/caps 0820
1 Spoon, 0.1 g, plastic 0699
1 Nitrate Nitrogen Comparator 5300
1 Dispenser Cap 0692

*WARNING: Reagents marked with a * are considered hazardous substances.
Material Safety Data Sheets (MSDS) are supplied for these reagents. For your
safety, read label and accompanying MSDS before using.

NOTE: Place the Dispenser Cap (0692) on the Mixed Acid Reagent
(V-6274). Save this cap for refill reagent.

PRO CE DURE

1. Use a 1 mL pipet (0354) to transfer 1 mL of soil extract to the 25 mL
graduated cylinder (0417). Dilute to 25 mL line with deionized water.

2. Fill a test tube (0820) to the first line with diluted soil extract.

3. Dilute to second line with *Mixed Acid Reagent (V-6278). Cap and

mix. Wait 2 minutes.

4. Use the 0.1 g spoon (0699) to add one level measure (Avoid any
excess) of *Nitrate Reducing Powder (V-6279). Cap and mix by
inverting 30 to 40 times in one minute. Wait 10 minutes.

5. Insert test tube into Nitrate Nitrogen Comparator (5300). Match
sample color to a color standard. Record as Nitrate Nitrogen.

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