Boron – LaMotte SMART Spectro Spectrophotometer User Manual

BORON

AZOMETHINE-H METHOD • CODE 4868

QUANTITY

CONTENTS

CODE

120 mL

*Boron Buffer

*4869-J

10 g

*Boron Indicator Powder

*4870-D

1

Pipet, plastic, 1.0 mL

0354

1

Spoon, 0.15 g

0727

1

Dark Storage Chamber, brown

0108

*WARNING: Reagents marked with a * are considered to be potential health hazards. To view
or print a Material Safety Data Sheet (MSDS) for these reagents see MSDS CD or
www.lamotte.com. To obtain a printed copy, contact LaMotte by e-mail, phone or fax.

Small amounts of boron are necessary for plant growth but large amounts can
be toxic. In humans, boron aids in the uptake of calcium and the production of
strong bones. An excess of boron can affect the central nervous system
resulting in a syndrome known as borism. Some natural waters may contain
small amounts of boron. Large concentrations may be due to industrial effluent
entering waterways. Boron compounds are used in cleaning compounds, paper
and paints, fertilizers, glass and ceramics, fire retardants and the production of
alloys. In the atomic energy field, boron is a component of neutron shields and
nuclear reactors. Some swimming pools use boron buffering systems.

APPLICATION:

Surface and saline waters, hydroponic solutions, industrial
waste, swimming pools.

RANGE:

0.00–0.80 ppm Boron

METHOD:

Azomethine-H and borate form a yellow complex at pH 6 in
proportion to the concentration of boron present.

SAMPLE
HANDLING &
PRESERVATION:

Store samples in polyethylene bottles. Do not use borate
detergents or glassware.

INTERFERENCES:

Interferences in drinking water are unlikely. Manganese,
zirconium, chromium, titanium, copper, vanadium,
aluminum, beryllium and iron may cause high results.

SMART SPECTRO TEST PROCEDURES 05.04

Boron 1/2