Texas summers all too often bring rapid and/or prolonged drought conditions, whereas our Texas winters can deliver heavy rains with extended saturated conditions. While rangeland managers welcome any rains, this combination and rapid shifts of extreme weather events from dry to wet or vice versa can lead to a hidden problem: nitrate-contaminated groundwater.
How Does It Happen?
This process called nitrate leaching can occur surprisingly quickly, with surface water penetrating to groundwater in as little as days. Here’s a breakdown of how it unfolds:
- Drought Followed by Heavy Rain: A summer drought can leave unabsorbed nitrogen fertilizer in the soil. When heavy winter rains arrive, this excess nitrogen, in the form of nitrates, rapidly moves.
- Nitrates Wash Deep: The heavy rainfall then washes these nitrates through the crop’s root zone, carrying them deeper into the soil.
- Groundwater Contamination: Once deep enough, these nitrates can contaminate groundwater, potentially exceeding the U.S. Environmental Protection Agency’s maximum contaminant level of 10 mg/L.The U.S. EPA’s maximum contaminant level (MCL) for nitrate in drinking water is 10 mg/L (10 parts per million), as measured as nitrogen (NO3-N). This level is also the maximum contaminant level goal (MCLG), meaning it’s both the target and the legal limit. The depth at which this level is measured isn’t relevant; it’s a concentration level in the water, regardless of depth.
Why Does This Matter?
For agricultural producers and introduced pasture managers, addressing nitrate contamination through sustainable practices is critical to protect water resources, ensure long-term productivity, and avoid regulatory or financial penalties.
What Can We Do?
To mitigate this risk, it’s crucial to:
- Limit leftover nitrates in the crop’s root zone after harvest.
- Utilize affordable, real-time soil nitrate monitoring tools to help manage nitrogen application effectively.
Understanding the synergy between extreme weather events and nitrate leaching is key to protecting our valuable groundwater resources. By implementing smart pasture management practices, we can work towards healthier soils and cleaner water for all.
For more information and to read the full study, check it out here.