Fragaria: circumnutation of another and younger stolon, traced from 8 A.M. to 10.30 P.M.
3
Cotyledon umbilicus: circumnutation of stolon, traced from 11.15 A.M. Aug. 25th to 11 A.M. 27th.
4
Griseb were placed in two habitats either heterogeneous or homogeneous in soil nutrient availability, with stolon connections left intact or severed.
5
Movement of end of stolon magnified 2.2 times.
6
This stolon was rendered permanently sinuous to a slight degree, and was thicker where sinuous than elsewhere, apparently from its longitudinal growth having been checked.
7
Fragaria: circumnutation of stolon, kept in darkness, traced on vertical glass, from 10.45 A.M. May 18th to 7.45 A.M. on 19th.
8
Cotyledon umbilicus: circumnutation and downward movement of another stolon, traced on vertical glass, from 9.11 A.M. Aug. 25th to 11 A.M. 27th.
9
Saxifraga sarmentosa: circumnutation of an inclined stolon, traced in darkness on a horizontal glass, from 7.45 A.M. April 18th to 9 A.M. on 19th.
10
So it is with the stems, stolons, flower-peduncles, and leaves of older plants.
11
Take again, among higher plants, the cases of suckers, runners, stolons, offsets, etc.
12
It does not cover, for instance, bulbs, corms, stolons, and rhizomes.
13
Stems are sometimes developed into long runners or stolons.
14
This was done for the sake of observing how the growing stolons would pass through them.
15
We see from these three cases that stolons or runners circumnutate in a very complex manner.
16
Stolon severing also did not affect the growth of the whole ramet pairs in heterogeneous environments.