December 13, 2010
Analyzing The Movement Of Tree Sap
The researchers decided to embark on this study in order to find out which mechanisms are used by plants when they extract water from very dry or somewhat inhospitable land. "In the case of mangrove swamps, for example, the plants are able to extract freshwater from a saltwater environment, despite the fact that the osmotic pressure should make quite the opposite happen", explains Professor Jos© Luis P©rez DÃaz, who studies this type of relatively unknown phenomenon as part of a new line of research that the Department of Mechanical Engineering at UC3M has begun.
The objective of the study is to learn what type of mechanism the plants use when extracting the water and transporting it from the roots to the leaves. To do this, the researchers have generated a model that represents the microscopic structure of the trunk of a European beech tree (Fagus sylvatica) in order to study the changes produced when the water moves through its interior; they have published some of the results of their research in a recent issue of the Journal of Biological Physics.
The main conclusion of this study is that the sap in the trunks of trees is in a pressurized situation. It demonstrates, then, that when the pressure is positive in the conduits of the xylem as well as in those of the floem, the model expands in the radial direction. However, when the pressure is negative in the xylem and positive in the floem, which is what is believed to occur during the day, the model contracts in the radial direction. "Our results are not absolutely conclusive yet, but they set us on a path to continue our study and to find out more about these processes", says Professor P©rez DÃaz.
This line of research could have interesting applications for hydraulic systems or devices for water extraction, for example. "Currently "“ the expert points out "“ there is no water suction pump capable of raising water more than ten meters at normal atmospheric pressure, but a sequoia tree can raise water to a height of 100 meters, which I think means that anything we can learn from plants is going to be of great interest to people working in this field", he concludes.
Image Caption: This picture shows a regular plant which is used in the research about the movement of sap in order to apply these advances to new hydraulic systems or to suction pumps. Credit: UC3M
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