no, it is a leave modification
Yes it is a leaf modification.
bitter gourd,grapevine,pea plant
Leaf tendrils are coiled structures that attaches a plant for support. A leaf tendril will generally have a bid in its axil or will be a modified leaflet of a compound leaf. Example: pea Stem tendril are a slender, coiled structure that is a modified part of a stem that provides support. A stem tendril is generally in the axil of a leaf or leaf scar. Also, if a tendril originates from an axillary bud, then it is a stem tendril. Example: Virginia Creeper, Grape.
No, pea plants are an example of vines that use leaf tendrils for support, not stem tendrils. Stem tendrils are specialized structures that aid climbing plants in attaching to structures for support. Pea plants have leaflet tendrils that wrap around supporting structures to help the plant climb.
Some examples of stem-tendril plants include grapevines (Vitis vinifera), sweet peas (Lathyrus odoratus), and passion flowers (Passiflora spp). These plants have specialized structures that help them climb and support themselves as they grow.
Answer: Tendril Figured it from a crossword puzzle.
A tendril represents a coiled wiry structure that a grapevine stem modifies into. Tendrils help the grapevine cling and climb onto structures for support.
Yes they do , The tendrils are slender , coiling , with modified stem structures
The word tendril is applied to a thin threadlike stem typically used as a support by climbing plants. The word is used metaphorically to describe similar structures, such as thin wisps of smoke or condensates.
Yes, in pea plants the tall-stem and short-stem alleles are different forms of the same gene that controls stem length. These different forms, or alleles, result in the observable variations in stem height seen in pea plants.
A tendril is a modified stem, leaf, or petiole. They are typically more round than flat and function to hold the plant up as it grows. Their movement is caused by differential growth on the part of the tendril which is not in contact with anything. Where the tendril comes in contact with a fence, trellis, or almost anything else, the growth and elongation of cells in that area are slowed. The cells not in contact with something continue normal growth and elongation. The effect is that the tendril grows around whatever it touches.
Conical root