The effect of uni-axial clinostat rotation on germination and root anatomy of Phaseolus vulgaris L.

Phaseolus vulgaris L. seed germination and seedling root anatomy were investigated on a slowly rotating clinostat in 1g. Clinostat rotating seeds were oriented as follows: the first with the longer axis parallel to the rotation pole (horizontal), the other group with the longer axis normal to the rotation pole with due attention to the position of the root apex primordium in the dry seeds (vertical). Germination time, percent germination and curvature of developing roots were monitored. Furthermore, the anatomy of the root apex was quantitatively analysed. Seeds placed on the clinostat germinated earlier than controls, and columella cells of roots developed while rotating lost the strict polarity with the nucleus positioned near the proximal periclinal cell wall and amyloplasts sedimented on the distal. periclinal wall. Irrespective of seed orientation on the rotation axis, loss of cell polarity occurred as well as a decrease in starch content, modification in cell size, and damage to statocytes whose walls appeared partially digested. Cell size in the elongation zone was also larger in roots rotating on the clinostat than in controls, both in vertically and horizontally placed specimens. Our results demonstrate that prolonged rotation has an effect on the statocyte that continuously perceives gravity from ever-changing directions, although this effect is irrespective of seed position on the rotating axis in P. vulgaris.