How To Use Leaf blade In A Sentence
-
Until recently, our understanding of the evolution of megaphylls largely stemmed from Zimmermann's telome theory describing the sequence of overtopping, planation and webbing leading to appearance of the laminated leaf blade.
-
A petiole is a stalk that attaches a leaf blade to the plant stem.
Recently Uploaded Slideshows
-
Hopi confers pigmentation to a wide variety of plant tissues, including pericarp, root, mesocotyl, and leaf blade in the seedling, midrib, ligule, leaf blade, and anthers in the mature plant.
-
She quickly decided that the petioles, the little stems that connect a leaf blade to a twig, looked most promising as a source of unspecialized tissue.
-
The leaf blades are lanceolate, ovate, round, or arrow-shaped.
-
The leafstalks will be of poor texture and flavor and oxalic acid may have migrated from the leaf blades.
-
Thickness was measured at small veins located midway between the midrib and the margin of the leaf blade.
-
All experimentation was done using the expanding second true maize leaf blade at a stage before growth of the leaf sheath, which is seen as displacement of the ligule from the leaf base.
-
Petiole 2-6 mm, puberulent and ± setose; leaf blade papery, oblong to oblong - lanceolate, 5-11 × 1. 5-3.5 cm; base cuneate; margin ciliate; apex obtuse and mucronate; abaxial surface densely gray-white-pubescent, yellow-brown setose along midrib; adaxial surface sparsely to densely puberulent when young.
Find Me A Cure
-
The leaf blades are stiff, glaucous to gray with strongly mammillate margins.
-
Mowing no more than one-third of the leaf blade minimizes the stress on the grass and produces shorter clippings.
-
Petiole 2-6 mm, puberulent and ± setose; leaf blade papery, oblong to oblong - lanceolate, 5-11 × 1. 5-3.5 cm; base cuneate; margin ciliate; apex obtuse and mucronate; abaxial surface densely gray-white-pubescent, yellow-brown setose along midrib; adaxial surface sparsely to densely puberulent when young.
Find Me A Cure
-
The whole leaf blade is moderately curved with curled margins.
-
Leaves are opposite and leaf blades are ovate with many teeth.
-
The collar is where the leaf blade visually breaks away from the sheath and the stalk.
-
This plant also has a folded vernation and a very smooth leaf blade.
-
The petiole is a stalk that attaches a leaf blade to the stem.
Recently Uploaded Slideshows
-
The thickness of transverse sections of leaf blades was determined at small veins for three leaves of each treatment.
-
Some species have green leaves, and others have distinctly colored leaf blades.
-
Firmly plant the stalks into sand or vermiculite with most of the leaf blades exposed.
-
It closely resembles E. macrophyllus and like the latter has no pellucid markings in the leaf blades.
-
Most divided at the point where the leaf blade joins the stem and, in most, the divisions are divided again.
-
Petiole 2-6 mm, puberulent and ± setose; leaf blade papery, oblong to oblong - lanceolate, 5-11 × 1. 5-3.5 cm; base cuneate; margin ciliate; apex obtuse and mucronate; abaxial surface densely gray-white-pubescent, yellow-brown setose along midrib; adaxial surface sparsely to densely puberulent when young.
Find Me A Cure
-
The high pressure flow meter was first used to measure the hydraulic conductance of whole shoots and its components, i.e. stems, petioles, and leaf blades in Quercus, Acer, and Populus species.
-
The whole leaf blade is moderately curved with curled margins.
-
It should be pointed out that by day 6 the leaf blade, the petiole and the stem cortex had lost a similar percentage of water.
-
Petiole 2-6 mm, puberulent and ± setose; leaf blade papery, oblong to oblong - lanceolate, 5-11 × 1. 5-3.5 cm; base cuneate; margin ciliate; apex obtuse and mucronate; abaxial surface densely gray-white-pubescent, yellow-brown setose along midrib; adaxial surface sparsely to densely puberulent when young.
Find Me A Cure
-
They climb on leaf blades and clip them off, causing the blades to fall unconsumed to the ground.
-
They climb on leaf blades and clip them off, causing the blades to fall unconsumed to the ground.
-
Silica is rare but when present occurs in vascular bundle sheath cells in both the leaf sheath and leaf blade.
-
The development of a leaf involves a complex pattern of cell division and cell elongation, with cell elongation playing a central part in the expansion of the leaf blade.
-
Their petioles are almost white; leaf blades are irregularly decorated with green, yellow-green, and white spots.
-
The leaf blades are stiff, glaucous to gray with strongly mammillate margins.
-
Grasses and bamboos are known to have large deposits of silica in the tissues of leaf blades and inflorescence bracts.
-
The leaf blades are lanceolate to broadly lanceolate and the inflorescence is branching.
-
They climb on leaf blades and clip them off, causing the blades to fall unconsumed to the ground.
-
When nutrients are resorbed from senescing leaves, they are transported from the entire area of a leaf blade to a single output point at the base of the petiole.
-
Here is a central rib of the leaf blade with mesophyll composed of undifferentiated cells.
-
Carbon dioxide fixation and light absorption takes place in the plant shoot parts, mostly leaf blades.
