Seeds know that they have to grow upwards against gravity because of a physical phenomenon called gravitropism, wherein the growth of a plant is governed by the force of gravity acting on it.
I once traveled to a friend’s village on vacation to spend a few days in an absolutely serene, pollution-free environment and have meals that were 100% organic. Some of his relatives were farmers and, incidentally, while I was there, the sowing season was beginning, so they were sowing seeds.
While watching them carefully sow seeds in the soil, a question popped into my head – do these farmers make sure that seeds are oriented the right way while sowing them? I quickly reasoned, “Of course, they do! They’re farmers.”
However, this presents a much more interesting question: is the orientation of sown seeds even important? In other words, is there a definite position in which seeds must be sown in the ground so that they germinate? If there isn’t, how do seeds know that their shoots must grow upwards, while their roots go downward?
How Do Seeds Figure Out The Effect Of Gravity And Grow In The Right Direction?
Short answer: Seeds can sense gravity and position themselves in accordance with it. This behavior is dictated by a physical phenomenon called gravitropism, wherein the growth of a plant is governed by the force of gravity acting on it. Roots grow in the direction of the gravitational pull, whereas stems grow in the opposite direction.
Let’s start with the basics.
Also Read: What Is Thigmotropism?
What Is Gravitropism?
Gravitropism is simply a plant’s (or fungus’) growth movement in response to gravity. Also referred to as geotropism, it is commonly observed in most plants and other organisms. The roots of a plant show positive gravitropism (as they grow in towards the gravitational pull), while the stem displays negative gravitropism (as it shoots upwards, away from the gravitational pull).
Given below is a picture that clearly depicts the phenomenon:
Thomas Andrew Knight Demonstrated Gravitropism With An Interesting Experiment
Plants have been growing the same way since the dawn of civilization, and mankind has always been intrigued by their behavior. Around two centuries ago, a botanist and horticulturist named Thomas Andrew Knight proved gravitropism with a rather fascinating experiment.
If you’ve ever taken a ride in a spinning tea cup at an amusement park, you know all too well that you get pushed away from the center of the spinning object towards the outside due to centrifugal force. To test if plants also responded to the centrifugal force of gravity, Knight attached a few plant seedlings to a flat, circular object which was then turned at a high speed of 150 revolutions per minute for a few days.
It turned out that plants responded to gravity pretty much the same way that humans do! It was observed after a few days that every plant on the disc had its roots pointed towards the outside and its stem pointed towards the center of the disc.
Also Read: Which Has A Higher Gravitational Pull, A Stationary Or A Rotating Object? Why?
How Do Plants Sense Gravity?
Plants perceive gravity with the help of particles called statoliths. These contain amyloplasts (organelles found in plant cells where starch is produced from glucose and stored until required by the plant), which are heavier than the cytoplasm (the gel-like substance enclosed within the cell membrane), and therefore settle at the bottom of the plant cell.
A hormonal growth signal is then triggered in the direction of that part of the cell where amyloplasts are accumulated, i.e., the bottom. The settling of the starch statoliths at the bottom leads to the transport of auxin from its source (the tips of stems and young leaves) to the roots although, the exact mechanism of this still remains elusive.
That’s why roots grow downwards!
Phototropism
Phototropism refers to the orientation of a plant in response to a light stimulus. In addition to gravitropism, which helps the roots go downwards, the stem demonstrates positive phototropism by growing in the direction of light.
A plant hormone called auxin is present in the cells of the plant that are furthest from the light (in other words, auxin is concentrated on the opposite side of the light stimulus), which causes the plant to develop elongated cells in the opposite direction of the light stimulus. Consequently, the shoot grows/turns towards the direction of light!
Note that roots usually show negative phototropism, which may contribute towards roots’ downward growth. However, gravitropism is much more dominant in roots, and explains the majority of their growth pattern.
How well do you understand the article above!