Wheat apex development

Images from the microscope


Stem at 1cm is a key development stage for the timing of agricultural husbandry events. The base of the plant stem starts to grow quickly, raising the immature ear up through the unfolding leaves of the upper stem. The lateral spikelet meristems continue to produce florets and the floret meristems start to initiate the different parts of the flower. Go to the section on Stem Extension to find out how the stem grows so fast.
As the wheat ear nears completion the apical meristem initiates the terminal spikelet. Instead of differentiating into new spikelets the last lateral primordia become glumes, lemma and florets, this means that the terminal spikelet is oriented at ninety degrees to the axis of the spike. The picture on the right shows the later development of the terminal spikelet. Once the terminal spikelet has been initiated rapid growth of the completed ear and the stem will commence. The apex is about 4mm long.
As the spikelets grow we can see that the florets are forming on opposite sides of the spikelet axis, which is called the rachilla. Each floret has its own meristem which will produce in sequence, a palea, two lodicules, three stamens and a carpel. There is a diagram of the spikelet with an expanded floret in the section on Flowering and Fertilization.
Internal view of the Green anther stage. In this spikelet part of each glume has been cut away to reveal the anther in floret 1 and the carpel in floret 2. Three things have changed from the previous White Anther stage. The carpel has grown rapidly and developed styles, upon which the feathery stigma lobes are differentiating, the anthers are now bright green and have short filaments and the dome at the top of the spikelet has stopped producing primordia and is starting to die. meiosis occurs, almost simultaneously, in the anthers and the carpel at the Green Anther stage.
The meristem at the tip of the ear continues to produce spikelet primordia. The new lateral meristem on the spikelet ridge also produces primordia and, as they grow away from the dome, they differentiate into the different structures of the spikelet. The first structures seen are the glumes, which are two strong protective structures on the outside of the spikelet. Each of the glume ridges will grow around the spikelet until, eventually, it is completely covered. There is a diagram of the structure of the spikelet in the section on Flowering and Fertilization.
At the Yellow anther stage the surviving florets are mature and anthesis is about to take place. In these pictures the lemma has been cut away to reveal the inside of the maturing florets. The anthers have swollen and the colour changes from bright green, through pale green to yellow, as the pollen inside ripens. In the right hand picture the pore at the tip of the anther has opened and pollen grains can be seen inside. The lodicules at the base of the floret are ready to force apart the lemma and palea. Once this has happened the feathery stigmas on the carpel open and prepare to receive the pollen. The youngest florets, toward the top of the spikelet, abort at this stage and the spikelet meristem is completely dead.
For an explanation of Anthesis and more pictures of the events go to the special section on Pollen Release.
The apical meristem has produced the terminal spikelet and the action now moves to the lateral spikelet and floret meristems. Each spikelet meristem will initiate between eight and twelve florets. While this continues in the top of the spikelet, the first formed florets, at the bottom of the spikelet, will start to differentiate the different parts of the flower. The primordia of the three stamens are prominent; the carpel is still hidden.
In the right hand picture, the older spikelet is at the White anther stage. Each floret has a protective lemma and palea, the lemmas have small awns, and the whole spikelet is rapidly becoming enclosed by the two glumes. Inside this spikelet the anthers were still white and the carpel was very small.
Lemma primordia are the next structures to be seen on the side of the spikelet. They form inside the glume primordia; the primordium on one side will become the lemma of floret 1 and on the other side it will become the lemma of floret 2. Eventually each floret will be enclosed by a lemma on the outside and a palea on the inside.
The apical meristem is still producing new spikelet primordia at this stage.
The change from the vegetative to the floral state. The apical dome initiates primordia at a faster rate than they can turn into leaf primordia with the result that undifferentiated primordia stack up on the elongated apex. The development of the lower 'leaf' ridges, which are poorly defined at the top of the apex, will be arrested. The tissue between these ridges now grows and will become the 'spikelet' ridge. The spikelet ridge is a new lateral meristem: the apical meristem continues to produce new spikelets and each spikelet meristem will now start to produce florets. This stage is known as double ridge and is the key to the timing of some husbandry events, such as fertilizer application.
At the tip of each growing shoot the apical meristem is producing new leaves. The apex on the left is vegetative; new leaf primordia are inserted on opposite sides of the apical dome. The apex on the right has extended very slightly. The lower primordia will still become leaves but soon spikelet primordia will develop between the 'leaf' ridges.