Our client’s initial deep well drilling in Brgy. Birbira, Camiling, Tarlac failed to meet the target yield for their farm. We addressed this by conducting a geo-resistivity survey, helping them locate a reliable groundwater source for agricultural use. The farm aims to provide food and produce for the region while creating jobs that will sustain the livelihood of the local community.

A stable groundwater source is critical to ensure consistent crop production without depending on costly water rations. Unfortunately, the initial deep well drilling attempt failed to meet the project’s target yield. To address this, we conducted a geo-resistivity survey for groundwater exploration, helping the client locate a more reliable source of water for their agricultural operations.

Whether for agriculture, livestock, or commercial facilities, securing a dependable water resource is a top priority. Water shortages can lead to production delays, financial losses, and higher operational costs. Conducting a water resource assessment before acquiring or leasing land ensures that businesses invest in properties with sustainable supply potential. Source: The Pigsite.com

In Brgy.Birbira, with a population of 1,229 (PhilAtlas 2020), access to groundwater plays a key role in community and agricultural development. At approximately 41 meters above sea level, the area presents unique geological challenges that make aquifer testing and site-specific surveys essential. Source: PhilAtlas Brgy. Birbira,Camiling Tarlac

A geo-resistivity survey in Brgy. Birbira Camiling Tarlac uses advanced electrical resistivity methods to map subsurface conditions and locate aquifers. This technique minimizes the risks of failed drilling, reduces costs, and ensures wells are designed for long-term use.

For this project, our team, led by Engr. Kristian with over a decade of field expertise, carried out the survey across the rugged terrain of Brgy. Camiling. The mission was clear: identify groundwater sources capable of sustaining the farm’s water demand.

Several factors made this project complex:

• Soil liquefaction risks – Saturated soil in seismic-prone areas may weaken, affecting drilling stability  Source: Tarlac State University Research

• Variable water table depths – Fluctuations directly impact drilling success and costs.

• Diverse soil conditions – Hard rock vs. soft soil required adaptable drilling methods.

• Regulatory compliance – Following National Water Resources Board (NWRB) guidelines was critical for sustainable water management (Geomate Journal).

  
  

Despite these hurdles, the geo-resistivity survey results identified feasible drilling sites with reliable groundwater potential.

The final geo-resistivity report provided key technical data including:

• Exact well location and aquifer depth

• Recommended well design and estimated yield

• Projected drilling costs and construction feasibility

From the findings:

• Low-Yielding Aquifer – Previous studies showed limited water, but the survey identified new viable spots.

• Data Scarcity – Lack of records made the survey even more valuable for decision-making.

• Growing Demand – Increasing water needs in surrounding areas emphasized the urgency of securing a reliable source.

• Innovative Solutions – Alternative technologies allowed us to overcome space and geological limitations.

Businesses Should Consider Geo-Resistivity Before Development, For agricultural farms, manufacturing plants, or commercial facilities, investing in a geo-resistivity survey before land development helps avoid costly failures and ensures access to sustainable water supply. This proactive step safeguards investments, improves operational efficiency, and secures long-term growth.

Our journey in Brgy. Birbira, Camiling, Tarlac highlights the importance of groundwater exploration in supporting agricultural and commercial growth. By combining geophysical surveys with deep well drilling expertise, we help businesses and communities secure the most vital resource: water.

As demand continues to rise, we remain committed to exploring innovative solutions for sustainable water development.