k Endomycorrhiza in blueberry root, SEM Coloured scanning electron micrograph SEM of a freezefracture preparation of a blueberry Vaccinium sp. plant root with endomycorrhiza white. A mycorrhiza is an association between a soil fungus and the roots of a vascular plant. The majority of vascular plant roots are mycorrhizal. Endomycorrhizal fungi grow within cell walls of the root. Both organisms benefit from this association. The fungus is able to access nutrient forms unavailable to the plant, process them and pass them on to the roots. The mass of fungal hyphae also provide a large surface area for the uptake of water and minerals. The fungus receives carbon compounds that the plant produces via photosynthesis. Magnification x1300 when printed at 15cm wide., by EYE OF SCIENCESCIENCE PHOTO LIBRARY Stock Photo - Afloimages
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Endomycorrhiza in blueberry root, SEM Coloured scanning electron micrograph SEM of a freeze fracture preparation of a blueberry Vaccinium sp. plant root with endomycorrhiza white . A mycorrhiza is an association between a soil fungus and the roots of a vascular plant. The majority of vascular plant roots are mycorrhizal. Endomycorrhizal fungi grow within cell walls of the root. Both organisms benefit from this association. The fungus is able to access nutrient forms unavailable to the plant, process them and pass them on to the roots. The mass of fungal hyphae also provide a large surface area for the uptake of water and minerals. The fungus receives carbon compounds that the plant produces via photosynthesis. Magnification: x1300 when printed at 15cm wide., by EYE OF SCIENCE SCIENCE PHOTO LIBRARY
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Endomycorrhiza in blueberry root, SEM

Coloured scanning electron micrograph (SEM) of a freeze-fracture preparation of a blueberry (Vaccinium sp.) plant root with endomycorrhiza (white). A mycorrhiza is an association between a soil fungus and the roots of a vascular plant. The majority of vascular plant roots are mycorrhizal. Endomycorrhizal fungi grow within cell walls of the root. Both organisms benefit from this association. The fungus is able to access nutrient forms unavailable to the plant, process them and pass them on to the roots. The mass of fungal hyphae also provide a large surface area for the uptake of water and minerals. The fungus receives carbon compounds that the plant produces via photosynthesis. Magnification: x1300 when printed at 15cm wide., by EYE OF SCIENCE/SCIENCE PHOTO LIBRARY

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