Evapotranspiration refers to a portion of the hydrologic cycle where water vapour enters the atmosphere. The primary process, evaporation, occurs when the sun heats oceans, rivers, lakes, and other bodies of water, providing heat to transfer the water into vapour. Evaporation also occurs with runoff water that travels across land, or even small droplets that collect on tree leaves. Transpiration is the other process involved in evapotranspiration and is the process where water from the ground or soil travels through a plant or tree and is released into the atmosphere. Plants and trees are constantly taking in more water and nutrients; however, in order to do this they have to release water already absorbed. All water absorbed by plant or tree roots leaves the plant through special structures in the leaves called stomata. Stomata release water vapour into the atmosphere.
In a watershed, forests are an important influence on how water is stored and moved throughout the ecosystem. Being a primary consumer of water, forest vegetation has an effect on the balance of water resources available for streamflow. Furthermore, water is returned to the atmosphere by means of evaporation from water stored in the forest canopy and floor, soil surface and water bodies such as wetlands, as well as from plant transpiration that provides a pathway for groundwater to reach the atmosphere. Altering the vegetation within a forest can have significant impacts on the hydrologic cycle and ecological function of forests in the overall ecosystem.
In the event of rain or snow fall, precipitation is intercepted by forest canopies. Approximately 60 percent of precipitation that falls on a forest canopy is intercepted and subsequently lost to the atmosphere, while the remaining precipitation falls to the ground. Some of this water becomes runoff, which is when water moves through the landscape into nearby streams and water bodies. Water that does not become runoff instead returns to the atmosphere through processes like evaporation and transpiration. Water that is not evaporated contributes to vegetation, soil moisture and groundwater recharge. Water is absorbed into the ground in a process called infiltration. In this process, water penetrates soil to add to soil moisture and replenish groundwater supplies. Some of the water that infiltrates into the ground is absorbed by the roots of plants. Water then travels from the roots up the plant to the leaves, where the water is changed into water vapour and released back into the atmosphere. This process where water travels from soil water to the atmosphere through plants is called transpiration. From these hydrological processes occurring in forest environments, the important function of forests can be realized in that they create a dynamic buffer between the land and the atmosphere, playing an important role in the interactions between the two, as well as storing water throughout the watershed.
Forests present an integral function to the hydrological cycle that, if interrupted or removed, can have a significant impact on water resources. For example, human activities that replace forests with impermeable surfaces or remove forest floor vegetation result in water that becomes runoff and flows directly to streams or wetlands rather than infiltrating into the ground, or being absorbed into the atmosphere. The loss of forested areas not only interrupts the hydrologic cycle, but also leads to heavy erosion, eliminates the uptake of nutrients, and disturbs food and habitat for aquatic ecosystems. Essentially, altering the forest landscape has a direct impact on the hydrological cycle; therefore, it is imperative to understand the impact of human activities on forests to further improve land and watershed management.
We provide Canadian educational resources on water practices to promote conservation and sustainability. Our team crafts current and relevant content, while encouraging feedback and engagement.
The Canada WaterPortal is a registered charity, #807121876RR0001
We recognize and respect the sovereignty of the Indigenous Peoples and communities on whose land our work takes place.
© 2024 All Rights Reserved.
Ross has extensive executive experience in Operations, Governance, Information Technology and Strategy at the board and senior management level including Mancal Corporation, Mancal Energy, Highridge Exploration and Atlantis Resources. He has worked in Oil and Gas, Coal, Commercial Real Estate, Portfolio Management, Recreation, Retail and Water and Wastewater Treatment. His experience is also geographically diverse having overseen operations in Canada, the United States, United Kingdom and Northern Ireland. Additionally, he has been on the board of companies with operations in Argentina, Azerbaijan, Barbados, Kazakhstan, and Russia. He has served on numerous Public, Private and Not for Profit Boards across a number of industries.
Ross has been active on several industry Boards and committees including the Canadian Association of Petroleum Producers (CAPP) and The Schulich School of Engineering Industry Advisory Council at the Schulich School of Engineering.
Brian is a seasoned Cleantech entrepreneur with a proven history of successfully bringing complex water technologies to the market. With over 25 years of experience, he has led various organizations to achieve significant milestones in the industry.
Having started as the founding CEO of the Pressure Pipe Inspection Company (PPIC) and later taking the helm at the Water Technology Acceleration Project (WaterTAP), Brian’s entrepreneurial spirit has been instrumental in driving innovation and growth within the sector.
He is an active investor in the cleantech sector and has served on many boards including the Ontario Clean Water Agency.
Actively engaged in industry associations like AWWA, WEF, IWA, and ASCE, Brian enjoys collaborating with fellow professionals to promote advancements in the field.
Brian holds an undergraduate degree and a PhD in Physics from Queen’s University, which has provided him with a solid technical foundation. As a member of the Institute of Corporate Directors, he brings valuable insights to corporate governance.
