Check this out...
A buddy of mine is closing down his shop and practically giving these killer EDC knives away!
Thing is, he connected me with the company that manufactures these bad boys...
And I need feedback from you to know if these are the real deal!
If you didn't get one yet go grab your Black Rhino Knife before they're all gone!
They're practically free right now. So it's a great time to load up for yourself and your family...
All I ask is that you give me your honest opinion of this knife so I can make the right business decision!
>>Click here to claim your Black Rhino Knife!
Yours in Liberty,
The MCG Team
P.S. Tell you one thing, my USMC (ret.) sales manager can't shut up about his Black Rhino. He was impressed with how crazy "shavin' sharp" it is!
e between different plants through the fungal network. Carbon has been shown to move from paper birch trees into Douglas-fir trees thereby promoting succession in ecosystems. The ectomycorrhizal fungus Laccaria bicolor has been found to lure and kill springtails to obtain nitrogen, some of which may then be transferred to the mycorrhizal host plant. In a study by Klironomos and Hart, Eastern White Pine inoculated with L. bicolor was able to derive up to 25% of its nitrogen from springtails. When compared with non-mycorrhizal fine roots, ectomycorrhizae may contain very high concentrations of trace elements, including toxic metals (cadmium, silver) or chlorine. The first genomic sequence for a representative of symbiotic fungi, the ectomycorrhizal basidiomycete L. bicolor, was published in 2008. An expansion of several multigene families occurred in this fungus, suggesting that adaptation to symbiosis proceeded by gene duplication. Within lin
eage-specific genes those coding for symbiosis-regulated secreted proteins showed an up-regulated expression in ectomycorrhizal root tips suggesting a role in the partner communication. L. bicolor is lacking enzymes involved in the degradation of plant cell wall components (cellulose, hemicellulose, pectins and pectates), preventing the symbiont from degrading host cells during the root colonisation. By contrast, L. bicolor possesses expanded multigene families associated with hydrolysis of bacterial and microfauna polysaccharides and proteins. This genome analysis revealed the dual saprotrophic and biotrophic
