Evapotranspiration

The decrease in vegetation cover resulted in a reduction in evapotranspiration rates.

High temperatures and low humidity increase evapotranspiration in desert regions.

High temperatures and low humidity can increase evapotranspiration, leading to water loss from the soil.

Understanding evapotranspiration is important for designing effective irrigation systems.

The evapotranspiration process plays a significant role in regulating the Earth's temperature.

The evapotranspiration process helps cool down plants during hot summer days.

Urban planners consider evapotranspiration rates when designing sustainable landscapes.

The high evapotranspiration rate in the desert leads to water scarcity.

The researchers conducted a study to investigate the effects of climate change on evapotranspiration in the region.

Farmers use evapotranspiration measurements to determine the water needs of their crops.

The study examined the impact of climate change on evapotranspiration rates in tropical rainforests.

The evapotranspiration rate can be influenced by factors such as wind speed and humidity.

The water management system in the city incorporated evapotranspiration rates to optimize irrigation schedules in public parks.

The evapotranspiration rate can vary significantly between different types of vegetation.

Scientists study evapotranspiration to better predict drought conditions and manage water resources.

The researchers used satellite imagery to estimate evapotranspiration rates across the entire watershed.

Farmers use evapotranspiration data to determine irrigation needs for their crops.

High evapotranspiration rates in arid regions contribute to the formation of salt flats.

Scientists are studying the impact of land-use changes on evapotranspiration in the Amazon basin.

The researcher measured evapotranspiration rates in different forest ecosystems.

The evapotranspiration process is a significant factor in the overall energy balance of the Earth's atmosphere.

Farmers rely on accurate measurements of evapotranspiration to determine optimal irrigation schedules for their crops.

The evapotranspiration rate is lower in humid regions compared to arid regions.

Understanding evapotranspiration is crucial for maintaining the health of wetlands and preserving their unique ecosystems.

The evapotranspiration rate in the desert is exceptionally high.

Urban areas with extensive pavement and concrete experience reduced evapotranspiration compared to natural landscapes.

The researchers measured the evapotranspiration rates in different ecosystems to understand their water requirements.

The forest's evapotranspiration plays a crucial role in maintaining the local water cycle.

Researchers are using satellite data to monitor evapotranspiration rates in different regions of the world.

The study focuses on the impact of climate change on evapotranspiration patterns.

Farmers use evapotranspiration data to determine the amount of water needed for their crops.

The scientist conducted experiments to estimate evapotranspiration losses in urban areas.

The evapotranspiration in this region is high due to the combination of hot temperatures and strong winds.

Understanding evapotranspiration is crucial for effective water resource management.

The study aims to assess the impact of climate change on evapotranspiration patterns in the Amazon rainforest.

Understanding evapotranspiration is essential for effective water resource management in drought-prone areas.

The study found that deforestation significantly reduces evapotranspiration, leading to changes in local weather patterns.

The evapotranspiration process plays a crucial role in the water cycle by returning moisture to the atmosphere.

Proper irrigation management takes into account evapotranspiration rates to avoid water wastage.

The evapotranspiration rates were measured to assess the water loss from the forest ecosystem.

The hot weather increased evapotranspiration rates, causing a depletion of soil moisture.

Forests play a crucial role in regulating evapotranspiration and maintaining local climate.

Researchers are studying the impact of deforestation on evapotranspiration rates in the Amazon rainforest.

Understanding evapotranspiration helps in predicting drought conditions in a region.

The irrigation system was designed based on the evapotranspiration rates of different crops.

The evapotranspiration rate in this region is high due to the hot and dry climate.

The meteorologists used evapotranspiration data to predict drought conditions in the region.

The study of evapotranspiration helps in understanding the water needs of different plant species.

The evapotranspiration process plays a crucial role in the water cycle.

The researchers analyzed the evapotranspiration data to study the water cycle in the forest ecosystem.