LaMotte 1200 COLORIMETER SULFATE 1200-SU User Manual

1200 colorimeter sulfate, Sulfate introduction

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1200 COLORIMETER

SULFATE

MODEL 1200-SU · CODE 3683-01

QUANTITY

CONTENTS

CODE

10 g

*Sulfate Reagent

*V-6277-D

1

Colorimeter Tubes, with caps

0290-6

1

Spoon, 0.1 g, plastic

0699

1

Water Sample Collecting Bottle

0688

1

1200 Colorimeter for Sulfate

26740

*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.

To order individual reagents or test kit components, use the specified code number.

SULFATE INTRODUCTION

The most common mineral forms of sulfur are iron sulfide, lead sulfide, zinc sulfide,
calcium sulfate and magnesium sulfate. In most fresh waters, the sulfate ion is the second
or third most abundant anion, being exceeded only by bicarbonate and, in some cases,
silicate. Sulfur, in the form of sulfate, is considered an important nutrient element.
Mineral springs are rich in sulfate and feed appreciable quantities of this compound to
the watershed. Acid mine water drainage is a form of pollution which may contribute
extremely large amounts of sulfate content to natural waters. Other sources of sulfate
include waste material from pulp mills, steel mills, food processing operations and
municipal wastes. Many bacteria obtain sulfur from sulfate for the synthesis of amino
acids. In lakes and streams low in oxygen, this process of sulfate reduction causes the
production of hydrogen sulfide, with its characteristic offensive odor. Calcium sulfate
and magnesium sulfate contribute significantly to the hardness of water. Under natural
conditions, the quantities ordinarily to be expected in lakes are between 3 and 30 parts
per million.

1

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