For full functionality of this site it is necessary to enable JavaScript.
EMIN.VN
0

Factors affecting the electrical conductivity (EC) in soil

2026년 04월 11일 09시 31분 50초

According to specialized literature, the electrical conductivity (EC) of soil is typically between 0.2 and 1.2 mS/cm. This is the range within which plants can absorb nutrients relatively stably. When it falls below this threshold, the amount of dissolved ions is insufficient, leading to nutrient deficiencies. When it exceeds this threshold, the salt content increases, affecting plant growth.

Electrical conductivity (EC) in soil is not constant but changes depending on the environmental conditions and characteristics of the soil. This article will clarify this.

Temperature and soil characteristics affect the electrical conductivity (EC) of the soil

The temperature of soil, water, and air directly affects the mobility of ions. As temperature increases, ions become more mobile, thus increasing the EC (Electrostatic Pressure) index. Conversely, as temperature decreases, ion movement slows down, and conductivity also decreases.

In addition, soil structure determines its water retention capacity and ion distribution. In dry conditions, ions are more tightly bound to soil particles, making movement difficult. With sufficient moisture, water helps dissolve and release ions, increasing conductivity.

Electrical conductivity depends on the type of substance and the degree of ion dissociation; this is analyzed in more detail in the article Ranking the Best Electrical Conductors Currently Available

Differences between soil types are also evident in the EC index. Sandy soils retain water poorly, so they usually have low EC. Clay or loamy soils retain moisture better, creating conditions for ions to exist and move, resulting in higher conductivity. Soils with balanced water retention and drainage capabilities tend to have more stable EC values.

Irrigation water, fertilizers, and soil depth alter electrical conductivity

Irrigation water carries dissolved substances that can alter the ion concentration in the soil. If the water contains a high salt content, conductivity will gradually increase over time. Conversely, rainwater or water sources with low mineral content can reduce salt concentration around the root zone.

Fertilizers directly supplement nutrient ions, thus significantly affecting EC. When used in high amounts, the accumulated salts in the soil will increase conductivity. If the threshold is exceeded, this excess can be detrimental to plants.

In addition, the depth of the soil layer also makes a difference in EC. The topsoil is usually rich in nutrients, suitable for root development. If the underlying soil contains a lot of clay or is near bedrock, the potential for ion accumulation may be higher, thereby altering conductivity.

관련 뉴스

QCVN 25:2025/BKHCN Takes Effect: Do Businesses Need to Prepare Electrical Safety Testing Equipment?
2026년 07월 15일 09시 15분 04초

Electrical safety is consistently one of the primary criteria evaluated before electrical or electronic equipment—or industrial components—are released to the market. A product may operate reliably yet still fail to meet requirements if its insulation lacks sufficient durability, its grounding resistance exceeds permissible limits, or leakage current occurs during operation.

Why Is Associated Research Considered an Icon of Hipot Technology?
2026년 07월 14일 09시 05분 30초

When it comes to electrical safety testing equipment specifically Hipot testers—many QA/QC and testing engineers are familiar with the globally renowned brand Associated Research. A subsidiary of the parent company IKONIX, Associated Research (ARI) invented the world's first commercial Hipot tester.

What Is the Standard 3-Phase Voltage? How to Read Cabinet-Mounted Meters Without Errors
2026년 07월 13일 15시 09분 18초

Voltmeters are almost invariably found on the panels of electrical cabinets in factories, power stations, or generator systems. A glance lasting just a few seconds allows an operator to determine whether the power supply is stable or showing signs of abnormality. However, not everyone understands the significance of the displayed readings, particularly regarding three-phase electrical systems.

Distinguishing between ARI’s Hypot, HypotUltra, and HypotMax: Which device is right for your factory?
2026년 07월 13일 09시 48분 30초

Few people realize that the concept of the "Hipot Test"—or electrical safety testing—has long existed within the electrical equipment manufacturing industry. Driven by the growing need to verify the voltage withstand capabilities of conductors, motors, and electrical devices, the industry required a robust and virtually fail-safe method to detect insulation weaknesses before products reached the market.

혜택 소식 받아보기

대량 할인, 도매 가격 업데이트 및 신제품 소식을 이메일로 받아보세요.

구독하면 당사의 서비스 이용약관개인정보 처리방침에 동의하는 것으로 간주됩니다.

빠른 지원

인증된 전문가에게 직접 연결