Monday, March 19, 2012

Todd Dawson's Lab!

Todd Dawson's Lab

When I think of Todd Dawson's work, I think of my own obsession of wondering what is going on under the ground as opposed to walking through the woods and looking at all the beautiful scenery. Yes of course the scenery is beautiful and exciting. However, my metamorphosis and obsession with underground biological life networking came about over a long period of time. While I always had interest in 'Botany' & 'Plants', I gradually came to realize through my own study and research that a healthy above ground paradisaic scenario is made only possible and a success by a properly installed under ground networked system. 

Nature, when not interfered with, takes care of itself. However, human's on the other hand are wowed by the Ooooooo-facter of various Large Corporate Marketing Schemes when it comes gardening and landscaping. Billions of Dollars in advertising over almost a century has indoctrinated people on Earth that Chemicals are the answer for your every need in the garden and landscape and without them you are bound to fail. Careful consideration should always be given to just exactly how things work in nature and then simply replicate these processes by developing practical application concepts into your own project. The mistake comes when mankind believes they can out perform and improve upon nature. No need to list the failures of this thinking. Anyone can read and listen to the News today and see that human's are rapidly destroying our planet.

That aside, let's get back to what work Todd Dawson and his team have pioneered. There are terms and phrases they research called 'Hydraulic Lift' - 'Hydraulic Redistribution' - 'Hydraulic Descent' and all of this has to do with a root phenomena where by roots of key species of any type of ecosystem facilitate the redistribution of water and nutrients through yet another complex and sophisticated piece of "Earth Internet" hardware called a mycorrhizal network or grid. These mycorrhizal organisms are nothing more than beneficial fungus which uses mycelial network fibers to inter-connect with various species of plants in an underground mutualistic association. In a nut shell the fungi provide an increased rate of absorbtion by 200% of water and nutrients and gives these to the trees or shrubs and in turn, the fungi who can't manufacture their own food through photosynthesis are rewarded from the plant carbons and other sugars by which the fungi survives.
Below is an animated illustration off Todd Dawson's Lab site  which beautifully illustrates just what happens during daylight hours, nighttime and even during the rainy season.

Sap velocity in the taproot and lateral root of P. robustum during the transition from the dry to wet season in the Floresta Nacional do Tapaj√≥s.(a–c) Schematics for water movement at nighttime before the rain (a), daytime before and after the rain (b), and nighttime after the rain (c). Arrows shown the dominant flow direction determined by sapflow. (d) Graph showing sap velocity. Positive values mean that water flows to the plant, and negative values means away from the plant into the surrounding soil. The dashed line represents a rain event (36 mm). See the text for a complete explanation.
One of the first articles I ever read was a piece done above Todd Dawson's research work on the role Sugar Maple (Acer saccharum) play in it's temperate forested ecosystem. It was exactly similar to something I had read about desert tree called Honey Mesquite (Prosopis juliflora) grows to a height of up to 12 metres (39 ft) and has a trunk with a diameter of up to 1.2 meters (3.9 ft). Its roots are able to grow to a great depth in search of water: in 1960, they were discovered at a depth of 53 meters (175 feet) at an open-pit mine near Tucson, Arizona, putting them among the deepest known roots

"Mother Nature's Irrigators" by Todd Dawson
Of course I already had an interest on the theories and research work by an Austrian Forester and self taught Physicist Viktor Schauberger. This Schauberger spoke of healthy electrically charged water as only coming from deep within the Earth and moving upwards through the soil bringing with it along vital nutrients (or Salts as he put it) which nourished plants and other life on the surface in the process. The invaluable research work and physical naturalistic explanations provided by Todd Dawson, his team and a plethora of other modern day researchers was sadly something unavailable to Viktor Schauberger who was privileged to live at a time when most old growth forests were still intact and in their pristine state and he could observe first hand natural phenomena that we can only dream of now.  With that early research in the back of my mind, this paragraph from the above linked article that caught my eye. It suddenly made sense of some of the things that seemed so mysterious. Take a look at what Todd Dawson and his team discovered with regards streamside trees. One would think that all that lush growth draws it's water hydration from off the surface waters. But not so. Read this one paragraph from the link from:
 "Mother Nature's Irrigators"
"By comparing variations in isotopic concentrations taken from different sources, they were able to show that mature streamside trees do not use stream water but used deep groundwater. When Dawson came to Cornell in 1990, he looked for ways to combine his research in water use with his interest in woody plants and their distribution and physiology. During the summers of 1991and 1992, Dawson observed the water use of Maples."
credit: Cornell University
Todd Dawson made a further research work of this streamside (Riparian Habitat) water use by Trees. These trees amazingly prefer the deep groundwater to the surface water abundant in what appears to be a healthy surface water situation. Take the time to read the paper they did on this in the link title:
"Streamside Trees That Do Not Use Steam Water" 

Credit:  Cornell University
The above info has intrigued my interest because of my passion for finding evidence for an Ancient Earth minerotrophic hydrological cycle which no longer exists on the Earth for the most part, though it does in it's parts. There are hints and clues everywhere and the technologies we can develop from learning about these natural processes are incredible and vitally important given the sad state of health conventional science has brought to mankind and the world around them.
Take a further 10 minutes if you are able and view this video on the Quest science video which tracks the field work of Todd Dawson and his team. They take a look at our present hydrological water cycle and proceed to study just how it actually does work. You might say they are taking a more detailed approach by focusing in on the fine tuning of this cycle that is not necessarily observable the the average person. As the video's descriptive reference on the page states, 
"Scientists at UC Berkley are embarking on a new project to understand how global warming is effecting our fresh water supply. And they are doing it by tracking individual raindrops Mendicino and north of Lake Tahoe."
Here is the video link which is only about ten minutes long. Enjoy!
"Tracking Raindrops" 

    The animated illustration at the top of this page which shows the various functions of the phenomena called Hydraulic Lift & Redistribution comes from a paper Dawson and other researchers did called,
"Root Functioning Modifies Seasonal Climate"
   Hydraulic redistribution (HR), the nocturnal vertical transfer of soil water from moister to drier regions in the soil profile by roots, has now been observed in Amazonian trees. We have incorporated HR into an atmospheric general circulation model (the National Center for Atmospheric Research Community Atmospheric Model Version 2) to estimate its impact on climate over the Amazon and other parts of the globe where plants displaying HR occur. 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 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.

From time to time I will add to this page further research done by Dawson and other who vision along the same line of thought and discovery. Keep checking for updated page.

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