roots

Root functioning modifies seasonal climate

Root functioning modifies seasonal climate

Very interesting:

Model results show that photosynthesis and evapotranspiration increase significantly in the Amazon during the dry season when plants are allowed to redistribute soil water. Plants draw water up and deposit it into the surface layers, and this water subsidy sustains transpiration at rates that deep roots alone cannot accomplish. The water used for dry season transpiration is from the deep storage layers in the soil, recharged during the previous wet season. We estimate that hydraulic redistribution (HR) increases dry season (July to November) transpiration by ~40% over the Amazon. Our model also indicates that such an increase in transpiration over the Amazon and other drought-stressed regions affects the seasonal cycles of temperature through changes in latent heat, thereby establishing a direct link between plant root functioning and climate.

And, hey, join us for the Climate Landscapes Conference, 18.-19.10.2022.

Posted by Stefan in Allgemein, 0 comments
Hydrolic lift – roots pump up water to store in the soil

Hydrolic lift – roots pump up water to store in the soil

Roots can help to hydrate landscapes and decrease wildfire risk: “In the semi-arid climate of the Great Basin in Utah, sagebrush grows in loam-skeleton soil, soil that sits on beds of alluvial gravel. Two ecologists, Richards and Caldwell set out to measure experimentally the hydraulic lift hypothesis – that is the assumption, that the roots of the trees bring up groundwater and spread it forth into the upper soil layer.  They found that the sagebrush’s roots were indeed bringing up groundwater and spreading it around to the surrounding soil. And not only that, when they put a special isotope of water around the sagebrushes roots, they found that that isotope then spread to neighboring plants. It was curious tree behavior because one might think a tree would keep all its water to itself, and not pass any into the surrounding soil, or to other trees. Rather the ecosystem seemed to be in a state of cooperation, passing the water around to keep all species hydrated. If the whole ecosystem survives better then individual species do too. Its the concept of group selection. […] Her team calculated that a quarter of trees and shrubs in the US regularly tap into the bedrock layer for water, and in California and Texas over 50% of the groundwater used by trees comes from the bedrock layer.”

Posted by Stefan in Allgemein, 0 comments