Understanding EC and pH in hydroponics

EC and pH Optimal Level For Hydroponics Vegetables & Herbs

Hydroponics, a method of growing plants without soil, relies heavily on the precise control of the nutrient solution. Two critical factors that affect the success of hydroponic systems are Electrical Conductivity (EC) and pH. Understanding and managing these parameters ensures that plants receive the proper nutrients, leading to optimal growth and yield.

Water Condition Tester EC TDS pH Temperature Tester BlueTooth

What is Electrical Conductivity (EC)?

Electrical Conductivity (EC) measures the ability of a solution to conduct electricity, which correlates to the concentration of dissolved salts, primarily nutrients, in the water. In hydroponics, EC is an indicator of nutrient strength in the solution.

Why is EC Important?

  1. Nutrient Availability: EC levels indicate the concentration of nutrients available to plants. Too low an EC means insufficient nutrients, leading to nutrient deficiencies and poor plant growth. Too high an EC can result in nutrient toxicity, which can damage or kill plants.
  2. Plant Health: Maintaining the correct EC ensures that plants receive balanced nutrition. This balance is essential for healthy growth, robust root development, and optimal yield.
  3. Water Uptake: Proper EC levels help plants absorb water efficiently. If the EC is too high, plants may struggle to take up water due to osmotic stress.

What is pH?

pH measures the acidity or alkalinity of a solution on a scale of 0 to 14, with 7 being neutral. In hydroponics, pH affects the availability of nutrients to plants.

Why is pH Important?

  1. Nutrient Absorption: Different nutrients are available to plants at different pH levels. A pH that is too high or too low can lock out essential nutrients, leading to deficiencies.
  2. Microbial Activity: Beneficial microbes that help break down organic matter and make nutrients available to plants thrive within specific pH ranges. Maintaining the correct pH supports these microbes, enhancing plant health.
  3. Root Health: Extreme pH levels can damage plant roots, affecting their ability to absorb water and nutrients. Maintaining an optimal pH range promotes healthy root systems.

 

Optimal EC and pH Chart Ranges for common vegetables & herbs

To maximize the potential of hydroponic systems, it’s crucial to maintain the recommended EC and pH levels for different plants. Here is a chart of optimal ranges for some common hydroponic crops:

PlantEC (mS/cm)pHPlantingHarvest
Arugula1.2 – 1.86.0 – 7.0Spring, FallSpring, Fall
Artichoke1.8 – 2.86.5 – 7.5Spring, FallSummer, Fall
Asparagus1.4 – 1.86.0 – 6.8SpringSummer
Basil1.0 – 1.65.5 – 6.5Spring, SummerSummer, Fall
Beets1.8 – 4.06.0 – 6.5Spring, FallSummer, Fall
Bell Pepper1.8 – 2.85.5 – 6.5SpringSummer, Fall
Bok Choy1.5 – 2.06.0 – 7.0Spring, FallSpring, Fall
Broccoli2.8 – 3.56.0 – 6.5Spring, FallSummer, Fall
Brussels Sprouts2.0 – 3.56.0 – 6.5Spring, FallFall, Winter
Butterhead Lettuce0.8 – 1.25.5 – 6.0Spring, FallSpring, Fall
Cabbage1.5 – 2.06.5 – 7.0Spring, FallSummer, Fall
Carrots1.6 – 2.46.3 – 6.7Spring, FallSummer, Fall
Cauliflower1.5 – 2.06.0 – 7.0Spring, FallSummer, Fall
Celery1.8 – 2.46.0 – 7.0SpringFall
Chard (Swiss Chard)1.8 – 2.56.0 – 7.0Spring, FallSummer, Fall
Chives1.2 – 1.86.0 – 6.5Spring, SummerSummer, Fall
Cilantro1.2 – 1.86.5 – 6.7Spring, FallSpring, Fall
Collard Greens1.5 – 2.56.5 – 7.5Spring, FallFall, Winter
Cucumber1.7 – 2.55.8 – 6.0SpringSummer
Dill0.8 – 1.45.5 – 6.5Spring, SummerSummer, Fall
Eggplant2.5 – 3.55.5 – 6.0SpringSummer, Fall
Endive0.8 – 1.85.5 – 6.0Spring, FallSummer, Fall
Escarole1.8 – 2.25.5 – 6.0Spring, FallSummer, Fall
Fennel1.4 – 1.86.0 – 6.7Spring, FallSummer, Fall
Garlic1.4 – 1.86.0 – 6.5FallSummer
Ginger1.6 – 2.25.5 – 6.5SpringFall
Green Beans1.8 – 2.46.0 – 6.5SpringSummer
Horseradish1.6 – 2.25.5 – 6.5SpringFall
Kale1.5 – 2.56.0 – 7.5Spring, FallSummer, Fall
Kohlrabi1.5 – 2.56.0 – 7.0Spring, FallSummer, Fall
Leeks1.4 – 1.86.0 – 6.5Spring, FallSummer, Fall
Lettuce0.8 – 1.25.5 – 6.0Spring, FallSpring, Fall
Mint1.2 – 1.85.5 – 6.0Spring, SummerSummer, Fall
Mustard Greens1.2 – 2.46.0 – 7.5Spring, FallFall, Winter
Nasturtium1.2 – 1.86.1 – 6.6SpringSummer
Okra2.0 – 2.46.0 – 6.5SpringSummer, Fall
Onions1.4 – 2.06.0 – 7.0Spring, FallSummer, Fall
Oregano0.8 – 1.26.0 – 8.0SpringSummer
Parsley0.8 – 1.85.5 – 6.0Spring, FallSummer, Fall
Peas1.5 – 1.85.8 – 6.3SpringSummer
Peppers1.8 – 2.85.5 – 6.0SpringSummer, Fall
Potatoes2.0 – 2.55.5 – 6.0Spring, FallSummer, Fall
Pumpkins1.8 – 2.45.5 – 6.5SpringFall
Radicchio1.8 – 2.05.5 – 6.5Spring, FallSummer, Fall
Radishes1.6 – 2.26.0 – 7.0Spring, FallSpring, Fall
Rhubarb1.2 – 2.05.5 – 6.5SpringSummer
Rosemary1.0 – 1.65.5 – 6.0Spring, SummerSummer, Fall
Rutabaga1.8 – 2.45.5 – 6.5Spring, FallSummer, Fall
Sage1.0 – 1.65.5 – 6.5Spring, SummerSummer, Fall
Spinach1.8 – 2.36.0 – 7.0Spring, FallSpring, Fall
Squash1.8 – 2.45.5 – 6.5SpringSummer
Sweet Corn1.6 – 2.46.0 – 6.5SpringSummer
Swiss Chard1.8 – 2.56.0 – 7.0Spring, FallSummer, Fall
Thyme0.8 – 1.65.5 – 7.0SpringSummer
Tomatoes2.0 – 5.05.5 – 6.5SpringSummer, Fall
Turnip Greens1.8 – 2.06.0 – 7.5Spring, FallSpring, Fall
Turnips1.6 – 2.06.0 – 7.5Spring, FallSpring, Fall
Watercress0.5 – 1.56.5 – 6.8Spring, FallSpring, Fall
Zucchini1.8 – 2.46.0 – 6.5SpringSummer

*for reference only. Adjustments may be required depending on your local condition and water hardness.

 

Monitoring and Adjusting EC and pH

To maintain optimal EC and pH levels, regular monitoring and adjustments are necessary:

  1. Testing: Use reliable EC and pH meters to regularly test the nutrient solution. Digital meters provide accurate readings and are easy to use.
  2. Adjusting EC: If EC is too high, dilute the nutrient solution with water. If it is too low, add a concentrated nutrient solution to reach the desired EC.
  3. Adjusting pH: To raise pH, add a pH up solution (usually potassium hydroxide). To lower pH, add a pH down solution (usually phosphoric acid).
  4. Consistency: Keep records of EC and pH levels to identify trends and make necessary adjustments before issues arise.

Conclusion

The control of EC and pH is fundamental to the success of hydroponic systems. By maintaining optimal levels, growers can ensure their plants receive the right balance of nutrients, leading to healthier growth and higher yields. Regular monitoring and adjustments help avoid common pitfalls and create a stable growing environment for plants. Investing time in understanding and managing these parameters will pay off in more robust and productive hydroponic gardens.