ContentsAlkalinityBiogeochemistry o

Contents
Alkalinity
Biogeochemistry of Trace Metals and Mettaloids
Chemical Fluxes and Dynamics in River and Stream Ecosystems
Chloride
Dissolved CO2
Iron and Manganese
Major Cations (Ca, Mg, Na, K, Al)
Micronutrient Elements (Co, Mo, Mn, Zn, Cu)
Nitrogen
Nitrogen Fixation
Phosphorus
Salinity
Silica
Alkalinity
M D Mattson, Massachusetts Department of Environmental Protection, Worcester, MA, USA
ã 2009 Elsevier Inc. All rights reserved.
Introduction
Alkalinity is a measure of the amount of bases in a
solution, which can neutralize hydrogen ions H
from
strong acids. Aclosely related and more encompassing
term is Acid Neutralizing Capacity (ANC), which
may include any type of buffering, including buffering
action of particulates suspended within unfiltered
samples. In most freshwaters, the major buffers in
the carbonate system, bicarbonate [HCO
3

], and carbonate
ions [CO
3
2
], with bicarbonate ion being the
dominant buffering agent that moderates large variations
in the pH of the system.
þ
In a simple freshwater system, alkalinity [Alk] can
be expressed as a concentration in terms of acid
equivalents per liter and defined as the amount of
bases in excess of acid protons:
½Alk¼½HCO

3
þ2½CO
2
3
þ½OH

½H
In more complex systems other buffers may contribute.
In marine systems borate [B(OH)
4

] may contribute
about 4% to the total alkalinity. In some systems,
additional weak buffers may include phosphate, silicate,
weak organic acid anions, or even more rarely
uncharged bases such as unionized ammonia.
In effect, alkalinity is the imbalance, or difference
between strong acids and bases and can also be written
as
þ

½1