PROCESS DIAGRAM
nitrogen is so stable that it does not readily combine with
other elements. Atmospheric nitrogen must first be bro-
ken apart before the nitrogen atoms combine with other
elements to form proteins and nucleic acids.
There are five steps in the nitrogen cycle, in which
nitrogen cycles between the abiotic environment and
organisms: nitrogen fixation, nitrification, assimila-
tion, ammonification, and denitrification (Figure 5.11).by increasing glacial and polar ice-cap melting and by in-
creasing evaporation in some areas.The Nitrogen Cycle
Nitrogen is critical for all organisms because it is an
essential part of biological molecules such as proteins
and nucleic acids (for example, DNA). The atmosphere
is 78 percent nitrogen gas (N 2 ). However, atmosphericThe Cycling of Matter in Ecosystems 109/
iÊÌÀ}iÊVÞViÊUÊ}ÕÀiÊx°££Atmospheric
nitrogen (N 2 )Plant and animal proteinsAssimilation
(nitrates, ammonia, or
ammonium absorbed by roots and
used to make organic compounds)Nitrification
(nitrifying bacteria)Internal cycling
(nitrification, assimilation,
ammonification on land)
1200Decomposition
(ammonification by
ammonifying bacteria)Nitrate (NO 3 )Ammonia (NH 3 )
and ammonium (NH 4 )+Nitrogen fixation
from
human activity
100
Denitrification
(denitrifying bacteria)
reverses action of
nitrogen fixation and
nitrification
200Biological nitrogen fixation
(nitrogen-fixing bacteria
in root nodules and soil)
140The movement of nitrogen between the abiotic environment (primarily the atmosphere)
and living organisms is known as the nitrogen cycle. The five steps of the nitrogen cycle
are nitrogen fixation, nitrification, assimilation, ammonification, and denitrification. The
values shown for some of the active pools in the global nitrogen budget are expressed as
1012 g of nitrogen per year. For example, each year humans fix an estimated 100 × 10^12 g
of nitrogen.Values are from Schlesinger, W. H.Biogeochemistry: An Analysis of Global Change, 2nd edition. AcademicPress, San Diego (1997) and based on several sources.✓✓THE PLANNER
How might a large increase in
livestock production alter the nitrogen cycle?Think Critically