Brine-affected land at oil exploration sites is a prime source of pollution
to soil, plant, and aquatic communities. The two primary effects of brine
on soil are (1) degradation of soil structure and (2) alteration of the osm
otic gradient between plant roots and the soil. Runoff from the damaged lan
d also degrades the quality of receiving streams. The objective of this stu
dy was to assess the extent of damage caused by brine on a productive land
and two adjacent streams. Data on soil quality revealed that over time the
combined effects of brine and erosion had left the land devoid of vegetatio
n. Detailed soil analyses showed elevated levels of soluble salt, moderate
pH (7.5), high clay content (>38%), electrical conductivity values that ran
ged from 7 to 62 dSm(-1), and very high exchangeable sodium percentage (70%
). The water quality of the two receiving streams was severely impacted by
high salt and sediment loading. Based on soil and water quality data from t
he disturbed site, a strategy was developed to rehabilitate the land by a c
ombination of engineering and agronomic practices. Six months after the reh
abilitation, approximately 90% of the land had been restored with full esta
blishment of seeded Bermuda grass (Cynodon dactylon).