Free with trial Branch roots are of two kinds: long-branching geotropic roots and short-branching apogeotropic roots, which are referred to as coralloid because of their irregular, beady appearance. The coralloid roots contain symbiotic cyanobacteria (blue-green algae), which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline. Coralloid root illustrations Corollid roots. Branch roots are of two kinds: long-branching geotropic roots and short-branching apogeotropic roots, which are referred to as coralloid because of their irregular, beady appearance. The coralloid roots contain symbiotic cyanobacteria (blue-green algae), which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline.
Free with trial Coralloid root is developed in Cycas. It is produced in clusters at the base of the stem and protrudes out over the ground. Coralloid root illustrations Corollid roots. Coralloid root is developed in Cycas. It is produced in clusters at the base of the stem and protrudes out over the ground.
Free with trial These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline. Coralloid root illustrations Cycas roots. These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline.
Free with trial These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline. Coralloid root illustrations Cycas roots. These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline.
Free with trial Coralloid root is developed in Cycas. It is produced in clusters at the base of the stem and protrudes out over the ground. Coralloid root illustrations Corollid roots. Coralloid root is developed in Cycas. It is produced in clusters at the base of the stem and protrudes out over the ground.
Free with trial These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline. Coralloid root illustrations Cycas roots. These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae. These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline.
Free with trial Branch roots are of two kinds: long-branching geotropic roots and short-branching apogeotropic roots, which are referred to as coralloid because of their irregular, beady appearance. The coralloid roots contain symbiotic cyanobacteria (blue-green algae), which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline. Coralloid root illustrations Corollid roots. Branch roots are of two kinds: long-branching geotropic roots and short-branching apogeotropic roots, which are referred to as coralloid because of their irregular, beady appearance. The coralloid roots contain symbiotic cyanobacteria (blue-green algae), which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline.
Free with trial These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline. Coralloid root illustrations Cycas roots. These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline.
Free with trial Coralloid root is developed in Cycas. It is produced in clusters at the base of the stem and protrudes out over the ground. Coralloid root illustrations Corollid roots. Coralloid root is developed in Cycas. It is produced in clusters at the base of the stem and protrudes out over the ground.
Free with trial These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline. Coralloid root illustrations Cycas roots. These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline.
Free with trial These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline. Coralloid root illustrations Cycas roots. These cyanobacteria are endosymbionts, living within the roots of Cycads. The coralloid roots contain symbiotic cyanobacteria blue-green algae, which fix nitrogen and, in association with root tissues, produce such beneficial amino acids as asparagine and citrulline.
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