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Post by fritolay66 on Nov 18, 2009 23:23:44 GMT -5
Hmmm.....just thinking out loud here, about the sludge. Darn fine post BTW. Anywho. I wonder.....what could happen if you used the bio-sludge and then added a GMO manipulated food, planted in the soil with the sludge, and then used bio-pesticides on the GMO food planted in the remediated sludge?
Would it be possible for the manipulated food strains to incorporate the organisms present in the sludge into the plant itself, in which the bio-pesticide is supposed to work but perhaps they are finding it does not, because it continues its known tendency to lateral transfer genetic information. And of course which we are eating. What is up with all the food poisoning alerts in the last couple of years. The food chain goes up. From the soil. Just a thought.
Frito
This is pure conjecture and may have no place here.
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Post by kammy on Nov 18, 2009 23:52:34 GMT -5
Hey Frito, I think we have all 3 of these... those mycologists are going to have a 'field day' with this... lol Chlamydospore Chlamydospores are usually dark-coloured, spherical, and have a smooth (non-ornamented) surface. They are multicellular, the cells being connected by pores in septae between cells. Chlamydospores are a result of asexual (thus being actually conidia called chlamydoconidia) or sexual reproduction (rare). upload.wikimedia.org/wikipedia/commons/thumb/f/f5/C_albicans_en.jpg/230px-C_albicans_en.jpgZygospore en.wikipedia.org/wiki/ZygosporeA zygospore is a reproductive part of a fungus, a chlamydospore that is created by the nuclear fusion of haploid hyphae of different mating types. A zygospore remains dormant while it waits for environmental cues, such as moisture, heat, or chemicals secreted by plants. When the environment is favorable, the zygospore germinates, meiosis occurs, and a sporangium is produced at the end of a sporangiophore. The sporangium sheds spores. A fungus that forms zygospores is called a zygomycete, indicating that the class is characterized by this evolutionary development. A Chlamydospore is the thick-walled big resting spore of several kinds of fungi. It is the life-stage which survives in unfavourable conditions, such as dry or hot seasons. Chlamydoconidia A Chlamydoconidia is athallic conidium that is thick-walled and may be terminal or intercalary. Seen in a form of asexual reproduction. my-stuff-dot-com.com/LB/chlamydoconidia 1.jpg[/img] my-stuff-dot-com.com/LB/chlamydoconidia 2.jpg[/img]
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Post by kammy on Nov 19, 2009 0:10:31 GMT -5
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Post by fritolay66 on Nov 19, 2009 0:13:51 GMT -5
Interesting. Keep going. Also, I found this. home.cc.umanitoba.ca/~pierceyn/ascomycotina.htmlTheirs: Mine: You will remember from one of my earlier posts, that I watched this emit millions of particles over a three to five minute period. It wasn't a fluidy emisson, it was gelatinous. And then this. Theirs: Look at all the tiny particles coming out of the top. I am wondering if this is what is occuring in our skin. All the particles and such coming from the skin. You will notice on the last picture to, that not all of the spores are the same color. Some are dark appearing red, and some are clear. I wonder if that would correlate with the black and the white particles we are seeing.
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Post by fritolay66 on Nov 19, 2009 0:33:50 GMT -5
Its back to work, no more time off for me. Work a split double tomorrow and friday and saturday. Will pop by as much as I can.
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Post by fritolay66 on Nov 19, 2009 16:45:00 GMT -5
Blog by John McBride, link at bottom: Mold & GlutathioneA Complex Process This piece takes a look at the important roll that glutathione plays in the removing of mold toxins from the body. It depicts the complexities of production and ways to assist the body in removing toxins.Contents lessmorePermanent link to this knol:LinkMcBride, John. Mold & Glutathione:A Complex Process [Internet]. Version 2. Knol. 2009 May 3. Available from: knol.google.com/k/john-mcbride/mold-glutathione/1jcbbfd2i7ymm/3.CitationEmailPrintFavoriteCollect this page -------------------------------------------------------------------------------- Glutathione (GSH) is extremely important as it protects our cells from toxins. It is an antioxidant produced within cells and acts to breakdown dangerous toxins. Mold, which creates several toxic chemicals, delivers an army of toxins to several of our organ systems aw well as our immune system. Our cells have the capacity to create GSH and very crucial GSH is produced in the liver. Glutathione is usually found in its depleted form. This means that if you had blood testing done to see your GSH levels, it will show up low. If you wanted to look for cellular toxicity, what you want to look at are the levels of Glutathione Disulfide (GSSG) compared to GSH levels. When Glutathione defends against toxins, it combines with Glutathione Reductase to convert to GSSG. This is a sign of that it is performing oxidation, defending against the toxins. An example would be if someone overdosed on medication, GSH levels will deplete further and GSSG would rise. The ratio between GSH to GSSG is a measurement to gage toxicity. GSH is also for protecting immune cells. So you can see the importance of GSH when it comes to the body’s defenses against mycotoxins. There are many enzymes, ingredients, & processes that take place in the production of Glutathione. The basic elements that it is synthesized from are glycine L-cysteine, & L-glutamine. These are all amino acids. There is also research, which shows that toxins can decrease in the production of Nrf2 (nuclear factor-erythroid 2 p45-related factor 2 ). Nrf2 regulates detoxification and antioxidant gene expression. Like previously stated, there is a series of interactions, which go into the production and the capacity for GSH to do its job. What has been observed is that the reduction of Nrf2 led to the reduction of NQO1, GSTP1, GSTM1 and GSTA5, GCLC and AKR7A1. These are GSH transferase protein subunits responsible for the GSH synthesis. There is also research, which shows that some genetically may lack the particular sub unit activity to detox certain toxins. What is called GSTM1 NULL. Basically put, some individuals may lack the capability per their genes to produce the factors necessary so that their GSH can detoxify certain toxins. So if the production of GSH is damaged, or you lack the capability to detox from certain toxins, this is one of the factors, which leads to becoming and staying ill from the toxins produced by molds. Thus, the ability to defend against toxic elements is severely lowered, thus leaving you in a very dangerous position. On the surface it might make sense to infuse the body with GSH. This has been tried in many ways. Some take it orally. It is said that this has little to no affect. That the body does not absorb GSH very well from the GI tract, so there is little benefit. Taken intravenously is a more direct method to get it to the cells in the blood stream. This is reported to have more benefits then taken orally. Glutathione deficiency is also known to lead to several neuropsychological affects. Memory loss & confusion are common issues that the toxically injured suffer with. The problem is how to get Glutathione to the Brain cells. The Brain Blood Barrier exists to prevent harmful elements from entering the brain. It prevents most foreign made elements from entering. With mold toxins however, the ATP’s are reduced, which weakens the BBB, leading to penetration of the toxins. Some researchers such as Dr. Kaye Kilburn has had success in treating patients with Glutathione intra-nasal spray. It is reported that many symptoms subside with it being administered this way. However, it is still unknown as to the long-term effectiveness of Glutathione infusions. Perhaps the elements that produce Glutathione need to be built up. Some physicians use Cholestyramine (CSM), which is reported to bind with toxins, leading to the extraction of them from the body. Taking precursors to GSH might be the answer. NAC N-acetlycysteine & undenatured whey proteins are said to help raise GSH production. At the end of the day the elements that need to combined need ATP. ATP, which stands for Adenosine triphosphate, is prodcued by the mithochondria. This is the power plant of all cells. All mold toxin research points to the infiltation of the mitchondria by mold toxins and ATP production is decerased as a result. In the long run, it appears that all of the illnesses created by molds revert back to the mitochondria. Protecting the mitochondria perhaps is where the true cure lies. I will discuss role of the mitochondria future postings. Glutathione and its processes, which lead to the breaking down of toxins in order to rid these from the body, is a very complex element. I hope that this helps you to understand the importance of GSH and how it ties into the illnesses and the treatment of mold toxicity. It is also possible to hypothesize that GSH also acts in the same way with toxins produced from sources other then mold. Whether made by nature or man, preventing toxin ingestion is key. 14Christophe Cavin et al, ;Reduction in Antioxidant Defenses may Contribute to Ochratoxin A Toxicity and Carcinogenicity: TOXICOLOGICAL SCIENCES 96(1), 30–39 (2007)doi:10.1093/toxsci/kfl169 9 I. Romieu et al; GSTM1 and GSTP1 and Respiratory Health In Asthmatic Children Exposed To Ozone": Eur Respir J 2006; 28: 953–959 DOI:10.1183/09031936.06.00114905 Copyright_ERS Journals Ltd 2006 Dr. Ritchie Shoemaker; Mold Warriors. 2005 Gateway Pr. Baltimore, MD: 2005. knol.google.com/k/john-mcbride/mold-glutathione/1jcbbfd2i7ymm/3#
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Post by jeany on Nov 19, 2009 18:20:54 GMT -5
Blog by John McBride, link at bottom: Mold & GlutathioneA Complex Process This piece takes a look at the important roll that glutathione plays in the removing of mold toxins from the body. It depicts the complexities of production and ways to assist the body in removing toxins.Contents lessmorePermanent link to this knol:LinkMcBride, John. Mold & Glutathione:A Complex Process [Internet]. Version 2. Knol. 2009 May 3. Available from: knol.google.com/k/john-mcbride/mold-glutathione/1jcbbfd2i7ymm/3.CitationEmailPrintFavoriteCollect this page -------------------------------------------------------------------------------- Glutathione (GSH) is extremely important as it protects our cells from toxins. It is an antioxidant produced within cells and acts to breakdown dangerous toxins. Mold, which creates several toxic chemicals, delivers an army of toxins to several of our organ systems aw well as our immune system. Our cells have the capacity to create GSH and very crucial GSH is produced in the liver. Glutathione is usually found in its depleted form. This means that if you had blood testing done to see your GSH levels, it will show up low. If you wanted to look for cellular toxicity, what you want to look at are the levels of Glutathione Disulfide (GSSG) compared to GSH levels. When Glutathione defends against toxins, it combines with Glutathione Reductase to convert to GSSG. This is a sign of that it is performing oxidation, defending against the toxins. An example would be if someone overdosed on medication, GSH levels will deplete further and GSSG would rise. The ratio between GSH to GSSG is a measurement to gage toxicity. GSH is also for protecting immune cells. So you can see the importance of GSH when it comes to the body’s defenses against mycotoxins. There are many enzymes, ingredients, & processes that take place in the production of Glutathione. The basic elements that it is synthesized from are glycine L-cysteine, & L-glutamine. These are all amino acids. There is also research, which shows that toxins can decrease in the production of Nrf2 (nuclear factor-erythroid 2 p45-related factor 2 ). Nrf2 regulates detoxification and antioxidant gene expression. Like previously stated, there is a series of interactions, which go into the production and the capacity for GSH to do its job. What has been observed is that the reduction of Nrf2 led to the reduction of NQO1, GSTP1, GSTM1 and GSTA5, GCLC and AKR7A1. These are GSH transferase protein subunits responsible for the GSH synthesis. There is also research, which shows that some genetically may lack the particular sub unit activity to detox certain toxins. What is called GSTM1 NULL. Basically put, some individuals may lack the capability per their genes to produce the factors necessary so that their GSH can detoxify certain toxins. So if the production of GSH is damaged, or you lack the capability to detox from certain toxins, this is one of the factors, which leads to becoming and staying ill from the toxins produced by molds. Thus, the ability to defend against toxic elements is severely lowered, thus leaving you in a very dangerous position. On the surface it might make sense to infuse the body with GSH. This has been tried in many ways. Some take it orally. It is said that this has little to no affect. That the body does not absorb GSH very well from the GI tract, so there is little benefit. Taken intravenously is a more direct method to get it to the cells in the blood stream. This is reported to have more benefits then taken orally. Glutathione deficiency is also known to lead to several neuropsychological affects. Memory loss & confusion are common issues that the toxically injured suffer with. The problem is how to get Glutathione to the Brain cells. The Brain Blood Barrier exists to prevent harmful elements from entering the brain. It prevents most foreign made elements from entering. With mold toxins however, the ATP’s are reduced, which weakens the BBB, leading to penetration of the toxins. Some researchers such as Dr. Kaye Kilburn has had success in treating patients with Glutathione intra-nasal spray. It is reported that many symptoms subside with it being administered this way. However, it is still unknown as to the long-term effectiveness of Glutathione infusions. Perhaps the elements that produce Glutathione need to be built up. Some physicians use Cholestyramine (CSM), which is reported to bind with toxins, leading to the extraction of them from the body. Taking precursors to GSH might be the answer. NAC N-acetlycysteine & undenatured whey proteins are said to help raise GSH production. At the end of the day the elements that need to combined need ATP. ATP, which stands for Adenosine triphosphate, is prodcued by the mithochondria. This is the power plant of all cells. All mold toxin research points to the infiltation of the mitchondria by mold toxins and ATP production is decerased as a result. In the long run, it appears that all of the illnesses created by molds revert back to the mitochondria. Protecting the mitochondria perhaps is where the true cure lies. I will discuss role of the mitochondria future postings. Glutathione and its processes, which lead to the breaking down of toxins in order to rid these from the body, is a very complex element. I hope that this helps you to understand the importance of GSH and how it ties into the illnesses and the treatment of mold toxicity. It is also possible to hypothesize that GSH also acts in the same way with toxins produced from sources other then mold. Whether made by nature or man, preventing toxin ingestion is key. 14Christophe Cavin et al, ;Reduction in Antioxidant Defenses may Contribute to Ochratoxin A Toxicity and Carcinogenicity: TOXICOLOGICAL SCIENCES 96(1), 30–39 (2007)doi:10.1093/toxsci/kfl169 9 I. Romieu et al; GSTM1 and GSTP1 and Respiratory Health In Asthmatic Children Exposed To Ozone": Eur Respir J 2006; 28: 953–959 DOI:10.1183/09031936.06.00114905 Copyright_ERS Journals Ltd 2006 Dr. Ritchie Shoemaker; Mold Warriors. 2005 Gateway Pr. Baltimore, MD: 2005. knol.google.com/k/john-mcbride/mold-glutathione/1jcbbfd2i7ymm/3# Frito...N-Acetyl-Cysteine..! right?
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Post by ruth on Nov 19, 2009 21:27:43 GMT -5
the soil that contaminated me and (greg) use to be riverbottom. that sludge stuff is spread within a 1/2 mile of where i got the chit.
my son knows someone who works at the sewage treatment plant.
i will ask if they still spread the sludge on those fields between the freeway and other places that the sludge is laid down.
i wonder if because of symbiosis, something from the ocean attaches in the air on a water drop and falls and sets up housekeeping with the sludge...........or is rotifiers and amoebas part of the breakdown mix?
actually, it would be good to get some info about the microbes they use to break the chit down with. maybe we all should find out this info if you still live in the vacinity of your M infection.
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Post by fritolay66 on Nov 19, 2009 22:40:14 GMT -5
Hi Ruth, I think more so, that it is part of the breakdown mix. But considering what has already been done to the soil by the GMO's and biopesticides and then the addtion of the sludge, it could make a veritable primordial soup type of thing. Here is a chart from one of the hundreds of articles I have read over the past week. I cannot remember for the life of me where I acquired this in order to properly cite it, my apologies. Frito
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Post by fritolay66 on Nov 20, 2009 7:54:03 GMT -5
The chart above, I needed to add one more comment I forgot to last night.
That chart is a representation of what you will "normally" find where ever mold had taken up shop. Whether that be in the sludge, or the drywall in our homes, the breakdown of wood, etc. The chart represents the breakdown of the substrate in progressive levels. Now it should make sense.
And for an example, lets take drywall that has been exposed to water. Typically the drywall is covered in a cellose or paper cover. On the surface, the mold is introduced and starts. Progressively, it will go deeper. The damage is then discovered. So we then clean the surfaces to rid the mold right? Wrong. By the time mold damage is usually found, it has gone deeper into the cellulose and into the drywall. We can't necessarily see it has. But we know that if a mold keeps coming back time and again, this is what is occuring.
If the damage has occured where we can see it then its a better outcome, but normally, mold happens where we can't see it. Inside the walls, behind another structure, in the insulation. Not so easy places to determine it is there. So the mold progresses to the levels in that chart.
Frito
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Post by fritolay66 on Nov 20, 2009 8:04:50 GMT -5
Have I got a story for you all. Be right back.
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Post by jeany on Nov 20, 2009 8:35:54 GMT -5
what, what, what? Frito! Tell us.. ..lol.(not laughing about you..just so excited..too much coffee maybe..? ;D)
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Post by fritolay66 on Nov 20, 2009 9:29:13 GMT -5
Hi Jeany!!! Had to run somewhere. I made a huge discovery last night concerning a white speck I felt on my face. I again, could have sworn it was some sort of bug. I am still shaking my head. I don't know where it came from but I did find it underneath my tear duct and below my eye. I can never feel a "trail" just wiggling and I equate it to crawling. Shaking my head again. So I pick it up off my face and slap it under the microscope. I am banging my head wishing I would have had my video sequence on. I had an eye dropper with water and put a dab onto the slide. An ever so tiny amount, just enough to surround the white speck but not let it be carried off by too much water. If it moved, it would of been on its own accord. First, under the microscope, lets talk about what I saw before the water. It was browninsh red. It appeared white when plucking it off my face. It appeared black when I put it on the slide. Brownish red when looking through the scope. Then, it had hairs. I have a picture of those hairs. And then the speck, it was small and crinkled up, and I still wasn't sure if I was seeing a bug, until I added water. But before I added water I decided to squash it a bit. Not mutilate it, but feel if it was squishy or not. It was rather hard, so particle like. Heres some static photos before I added the water. The intact particle prior to any manipulation. Notice the fiber! 100 mag. I rolled it over for a side view. 100 mag The hairs I told you about. These could be seen after I tentatively squished the specimen. I couldn't see them prior to "squishing" the sample. 100 mag When I added the water, this speck, started unfolding and moving in a few areas and began to grow!!! It ended up twice the size it originally was before I added water. Like a sponge so to speak when it soaks up water it gets larger. This did too. How wierd is that? Here are some photos. Water drop added. 100 mag 300 mag to see a better view of the structure. [img src="[http://i578.photobucket.com/albums/ss221/fritolay66/11_19_15.jpg"] So again. Before water After water Notice the sphere. I dont think thats a water bubble and it was the only one present in the sample. These were both taken in the same mag!!!! It was not a bug, but it does move and expand. Is this what mold would do when it contacts water? Remember, I got this speck off my face underneath my eye. Frito
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Post by fritolay66 on Nov 20, 2009 9:32:04 GMT -5
Ruth, you mentioned soil contaminating you. Come to think about it. When my place was going through multiple flood issues. The landlord had a truckload of soil hauled in with the remedial work done on the foundation. Hmmmmm..... I had an awesome flower bed in that soil!!!! Wonder where it came from.
Frito
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Post by fritolay66 on Nov 20, 2009 9:33:38 GMT -5
Jeany, I ran out of coffee....... And my creamer. Gotta go to work. Frito
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Post by fritolay66 on Nov 20, 2009 9:37:35 GMT -5
Whoops, had to modify the original post as my 300 mag picture did not show up.
Frito
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Post by toni on Nov 20, 2009 9:56:48 GMT -5
Frito, thank you for the photos and all.
I know what you're talking about here. I have this happen all the time.
Little tiny 'white flecks' like end up on my face, under my eye, on my brows, where ever on my face. I can feel them tickling on my face.
Many times (don't know how...) but my ends of my hair will deposit these onto my face also. Several hairs on my head are completely wild. They'll touch the side of my nose or my cheeks and then I can feel the particle they left behind and it's moving and tickles where ever it's been deposited on my face.
Sometimes I can see them hovering (right in front of my face) as though they're magnitized because they don't float up or down, they hover right in front of me. When I reach slowly to extend my fingers to have one land on it, so I can capture it, just that tiny amount of air movement of my hand is enough to send them floating off in another direction where I then lose sight of them.
I have scoped few that have landed on my fingers from catching them, but I see them all the time from my face.
When hydrated (as with a drop of water) placed on them, they do open up like, and swell (like a dry sponge would after it's placed in water). I think it's just because they are "so dry" that this happens. The magnetic part...I sure don't understand, but imho, they are, because I can see this event all the time (the hovering) and these particles are not "critters".
They look just like yours. Mine are no bigger than the periods at the end of the sentences here.
Thanks again for all the pictures.
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Post by ruth on Nov 20, 2009 10:29:48 GMT -5
ditto frito and toni
i asked my son, he doesn't see the people who worked at the sewage treatment plant.
he said the sewage is dried out to look like coffee grounds and spread on our hop fields.
we have lots of hops here, so on my day off, i'll go to the houses surrounding the hop fields and ask about their and their workers' health. i'll call the plant itself, monday. just to know.
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Post by kammy on Nov 20, 2009 11:01:38 GMT -5
Jeany and I went out yesterday to eat breakfast, she said she hadn't had a pancake in 20 years or more - so we went to the IHOP, while sitting there, I discussed how I am seeing Chlamydospores, zygospores and Chlamydoconidia. And, yes, we have laughed at our choice of dinner conversation more than once. And, I think I've even seen more that that... of course, it's fun speculating and someday soon our mycologist results will tell us what's going on for sure, but, until then... I asked her what about the embryo-like 'amoeba' coming out of a sphere and I saw where 'sexual' reproduction is rare and has a name to itself. I said, 'I have seen where the fibers are draped on top of the spheres... as if that is a form of reproduction? And, the next day you look, and the fibers are gone. ... Then the spheres start producing polyhedron (carbon-like entities)... Makes me wonder if the fibers aren't exchanging something like in a reproductive process? Anyway, it got us talking and we speculatively said, 'what if our fungus is a mutant variety either from the inception or by coming into contact with something else?' or some scientist said... 'I want to create a new species by altering the way it reproduces'? Just some thoughts... I have commented on the many ways in which our spheres appear to reproduce, this is a key in identification, I would think? The particles coming out of our skin are in a 'freeze-dried', dessicated state. All that is needed is water, moisture added to bring them to 'life'. The size of the specific fungal spores that we have been talking about is noted in places. I realize that the size of an artifact is one of the most important ingredients in identification but haven't been concerned about it because I am just here to show the truth - if a spore is only supposed to be so large and I'm showing something that is out of proportion with what is known... is what I'm showing not capable of being of what I'm thinking it is? Not necessarily, because we're dealing with Morgellons, an unknown. I figure that if I take a photo at 100x and someone wants to know the size of the object - a microbiologist who is familiar with the scale can easily tell how large the artifact is and I don't need to concern myself with it. Frito, I think your 'artifact' (love that word, Frito)... is what I call the sphere/spore in its 'fan shape'. They have many shapes, sizes, states... that's what has been difficult in identifying it. The edges look like those mushrooms that sprout of the side of trees. And, I have seen everything inside of these, everything in the Morgellons artifacts coming out of them, being born... this is like a womb. These are the main sphere players and look like a biofilm (color) in the Petri Dish and they usually start out as circular in shape. These two photos are from cultured bathroom tissue, 13 days growth - the same examples are seen in human samples, at 100x:
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Post by jeany on Nov 20, 2009 11:33:15 GMT -5
Hi Jeany!!! Had to run somewhere. I made a huge discovery last night concerning a white speck I felt on my face. I again, could have sworn it was some sort of bug. I am still shaking my head. I don't know where it came from but I did find it underneath my tear duct and below my eye. I can never feel a "trail" just wiggling and I equate it to crawling. Shaking my head again. So I pick it up off my face and slap it under the microscope. I am banging my head wishing I would have had my video sequence on. I had an eye dropper with water and put a dab onto the slide. An ever so tiny amount, just enough to surround the white speck but not let it be carried off by too much water. If it moved, it would of been on its own accord. First, under the microscope, lets talk about what I saw before the water. It was browninsh red. It appeared white when plucking it off my face. It appeared black when I put it on the slide. Brownish red when looking through the scope. Then, it had hairs. I have a picture of those hairs. And then the speck, it was small and crinkled up, and I still wasn't sure if I was seeing a bug, until I added water. But before I added water I decided to squash it a bit. Not mutilate it, but feel if it was squishy or not. It was rather hard, so particle like. Heres some static photos before I added the water. The intact particle prior to any manipulation. Notice the fiber! 100 mag. I rolled it over for a side view. 100 mag The hairs I told you about. These could be seen after I tentatively squished the specimen. I couldn't see them prior to "squishing" the sample. 100 mag When I added the water, this speck, started unfolding and moving in a few areas and began to grow!!! It ended up twice the size it originally was before I added water. Like a sponge so to speak when it soaks up water it gets larger. This did too. How wierd is that? Here are some photos. Water drop added. 100 mag 300 mag to see a better view of the structure. [img src="[http://i578.photobucket.com/albums/ss221/fritolay66/11_19_15.jpg"] So again. Before water After water Notice the sphere. I dont think thats a water bubble and it was the only one present in the sample. These were both taken in the same mag!!!! It was not a bug, but it does move and expand. Is this what mold would do when it contacts water? Remember, I got this speck off my face underneath my eye. Frito Speaking about white specks. I just felt something tickling on my forehead and plucked it off...a itsy bitsy tiny white speck! I lost it, but I bet there will be more. Will give it Kam to scope it next time! Great pix..btw..Frito..and yeah!..go get ya some more coffee!! ;D Jeany
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