Abstract:
The increase of the world’s population and the decrease of freshwater resources have
led to increased use of alternate water resources to meet the water need. Using treated
wastewater (eluent water) for urban landscape irrigation has become a common practice
to alleviate freshwater shortage. Golf courses are the leading urban landscape users
of eluent water, because intensively managed turf can use nutrients in the wastewater
eiciently. The objectives of this study were to assess changes in soil chemical properties
of sand-based puting greens, following conversion from freshwater irrigation to eluent
water irrigation, and identify potential concerns related to long-term use of eluent
water on sand-based greens. Soil samples were collected and analyzed from greens at
the Heritage Golf Course in Westminster, Colorado. The course started to use eluent
water for irrigation in 2000. Nine out of eighteen (1, 3, 5, 7, 9, 11, 13, 15, 17) greens were
selected for soil sample collection. Soil samples (0–10 cm below soil surface) were collected
in September of 1999, 2003, and 2009. Soil test data showed that the soil’s chemical
characteristics changed over time. Soil organic mater (SOM) increased from 0.12
to 1.5%, and cation exchange capacity (CEC) is increased by as much as double over
nine years. Extracted phosphates increased by 388% after nine years of eluent water
use. Exchangeable calcium, magnesium, potassium, and sodium also increased, by 198,
116, 148, and 452%, respectively, over nine years of eluent water irrigation. In addition,
increases over time were found for extractable iron, manganese, copper, zinc, and
aluminum. In conclusion, using eluent water for irrigation has both beneits and risks.
Increased salinity (EC) and sodium levels are the greatest risks when using eluent
water; however, to a certain degree, these can be managed through appropriate cultural
practices such as leaching and adding gypsum. Supplemental nutrients and decreased
fertilizer costs are the greatest beneits of using eluent water for irrigation. Our results
showed that released nitrogen, phosphorus, potassium, and magnesium levels increased
in the soil after using eluent water, which would be beneicial for the grass and lowering
the fertilizer’s cost.