“See you not that Allâh sends down water (rain) from the sky, and We produce
therewith fruits of various colors” (TMQ, Fatir – The Originator: 27)
This ayah appears in the second half of Surat Fatir, which was revealed in Makkah. The Surah gets its
name, Fatir (Originator), from the opening ayahs which praise Allah (SWT), the Originator of the
heavens and the earth who made the angels His Messengers, as He is Able to do all things. He is
most Gracious in the heavens and the earth; He is the most Merciful, the All-mighty and the All-Wise.
Signs of creation in Surat Fatir:
In Surat Fatir Allah mentions many signs of creation, including the following. The ayahs can be
translated as:
1. And it is Allâh Who sends the winds, so that they raise up the clouds, and We drive
them to a dead land, and revive therewith the earth after its death. As such (will
be) the Resurrection! (TMQ, Fatir:9).
2. And Allâh did create you (Adam) from dust, then from Nutfah (male and female
discharge semen drops i.e. Adam’s offspring), then He made you pairs (male and
female). And no female conceives or gives birth but with His Knowledge. And no
aged man is granted a length of life nor is a part cut off from his life (or another
man’s life), but is in a Book (Al-Lauh Al-Mahfûz ) Surely, that is easy for Allâh. The
two seas (kinds of water) are not alike: this is palatable, sweet and pleasant to
drink, and that is salt and bitter. And from them both you eat fresh tender meat
(fish), and derive the ornaments that you wear. And you see the ships cleaving
(the sea-water as they sail through it), that you may seek of His Bounty, and that
you may give thanks. He merges the night into the day (i.e. the decrease in the
hours of the night is added to the hours of the day), and He merges the day into
the night (i.e. the decrease in the hours of the day is added to the hours of the
night). And He has subjected the sun and the moon: each runs its course for a
term appointed. Such is Allâh, your Lord; His is the kingdom. And those, whom you
invoke or call upon instead of Him, own not even a Qitmîr (the thin membrane
over the date-stone). (TMQ, Fatir: 11-13).
3. See you not that Allâh sends down water (rain) from the sky, and We produce
therewith fruits of various colors, and among the mountains are streaks white and
red, of varying colors and (others) very black. And likewise of men and Ad-Dawâbb
[moving (living) animals, beasts], and cattle, are of various colors. It is only those
who have knowledge among His slaves that fear Allâh. Verily, Allâh is All-Mighty,
Oft-Forgiving (TMQ, Fatir: 27, 28).
4. Verily! Allâh grasps the heavens and the earth lest they should move away from
their places, and if they were to move away from their places, there is not one that
could grasp them after Him. Truly, He is Ever Most Forbearing, Oft-Forgiving (TMQ,
Fatir: 41).
Each of the signs mentioned in these ayahs need to be contemplated and considered separately, thus
I will limit this discussion to the first part of ayah 27 of this chapter.
I shall start with a brief review of the comments made by a number of scholars commenting on this
ayah that can be translated as, “See you not that Allâh sends down water (rain) from the
sky, and We produce therewith fruits of various colors.” (TMQ, Fatir: 27).
Interpretation of this ayah by some scholars
Fi Zilal Al-Qur’an (In the Shade of the Qur’an) states, “This is only one of the spectacular implications
about creation proving the divine origin of this scripture. This particular implication takes in the whole
of the earth, including its colors and hues, whether they are found in fruits, mountains, people or
animals. It basically encompasses everything on earth and overwhelms the heart with this divine
infusion of colors; from the rainfall to the harvest of fruits of different colors. As Allah says what can
be translated as, “We produce therewith fruits of various colors”.
The color of fruit covers a wide range of shades that no artist could ever create. There is no such
thing as a fruit species of identical color, nor do two pieces of fruit from the same tree have exactly
the same color. On closer inspection, we would see there is a slight difference in the color of the
two”.
Scientific implications in this ayah
Fruits and botany
The fruit of flowering plants is the fully developed ovary which carries the seeds. It is not affected by
changes in the environment around it.
There are different classifications of flowering plants, depending on their fruit structures: some plants
have only either male or female reproductive organs and others have both male and female
reproductive organs. When the flower is fertilized, the male part merges with the female one. Once
they have successfully merged, a plant embryo forms inside the seeds where it is surrounded by the
nourishment it requires to grow and is enclosed by a protective shell. Once the fertilized ovum, the
seeds or the individual seed it holds inside are fully grown, the tissues of the ovary start to expand.
Sometimes other tissues in the flower expand as well, resulting in fruit formation. In order to form
the fruit skin, which appears right after the flower petals start to fall, the ovary wall may thicken,
harden or remain delicate.
In most flowering plants, after the flower is fertilized and the fruit is formed, other organs start to
wither. There are, however, a few exceptions.
The main function of the fruit is to protect the plant’s embryos inside the seeds, providing them with
the nourishment they require to grow, enabling these seeds to spread after the fruit ripens or is
consumed by people or animals who then discard them on the ground where they start to grow
again. Unconsumed fruit may rot or spontaneously open in order to release the seeds which are then
carried by the wind, water, man or animals to distant places in order to propagate the plant species.
The difference in the colors of fruits means that they are of different types:
Commenting on Allah’s words that can be translated as, (We produce therewith fruits of various
colors), Az-Zamakhshari said: “this difference in colors includes differences in types and shapes”.
The different types of fruits are too numerous to count, although we may categorize them
hierarchically as follows:
i. Simple fruits
These are fruits that develop essentially from a single ovary in a single flower, either from one carpel
or from many carpels. Each of these simple fruits contains the embryo of the plant which is
surrounded by the nourishment that will suffice it until it is ripe. The remainder is saved for future
germinations. The embryo is often surrounded by a number of protective membranes. The embryo,
the nourishment surrounding it and the protective coverings are collectively known as the seed or the
stone. These embryos stored inside the seeds, pits or stones of plants exist by the will of Allah.
Simple fruits are of two types: fleshy and dry. In the former, the embryo is surrounded by three
layers: from the inside out they are, a ligneous covering surrounding the seed (or the stone) called
the endocarp, a mesocarp, the fleshy covering of the endocarp; this covering is the edible part of the
fruit and finally, a delicate outer skin covering the whole fruit which can become thick and waxy
when the fruit has fully ripened. These sorts of fruits, such as apricots, peaches, plums, cherry olives,
etc., are often called ‘drupes’.
Some simple fleshy fruits are known as ‘pepos’. In this type of fruit, the three layers protecting the
embryo maintain their softness even after the fruit is ripe, such as the cucumber, whereas in grapes
and tomatoes, the seed coverings are hard. Pepo fruits are of a sebaceous nature; they have
numerous seeds inserted within the endocarp substance of the fruit, such as melons, watermelons,
oranges and the likes.
Sometimes, organs other than the ovary, such as the receptacle, calyx, the stem or carpels assist in
forming the fruit. These fruits can be simple like apples, pears or quinces. In these plants, the
receptacle tissue develops and becomes the edible part of the fruit. These are simple accessory fruits
because the edible part is the developed receptacle of the flower. These fruits can also be complex as
will be mentioned later.
As for the simple dry fruits, the membranes surrounding the embryo are all dry, and the fruits are
either dehiscent (they split open when mature) or indehiscent. The castor-oil plant has dehiscent
fruit. There is also the primulaceae fruit, which opens in the form of a lid covering a capsule or in the
form of pores that penetrate the fruit wall such as the poppy seed, carnation fruit which opens in the
form of a capsule with intertwined teeth, cotton fruit with two or more carpels and violets which have
sharp, cutting edges. Some of them open on one side lengthwise (brambles) and some of them open
on both sides, like vegetables, which is more common. Some take the shape of the mustard family
fruits, like watercress and gillyflowers.
As for indehiscent fruits or simple dry fruits, the exocarp of the fruit remains closed and the seeds
cannot be exposed unless the wall of the fruit splits or decays. The wall could be of wood, such as
hazelnuts, almonds, walnuts, and pecans. Sometime the wall of the fruit is attached to the seed, as
one finds in wheat. The outer layer is sometimes leathery and is not joined with the seed as is the
case of roses.
ii. Multiple Fruits
These fruits consist of the matured ovaries of several to many flowers united in a cluster. Among
this group we have strawberries, raspberries and custard apples.
iii. Aggregate Fruits
This group contains fruits that develop from multiple flowers aggregated over the surface of a single
receptacle. These complex fruits contain leaves, stems, and ovaries that contain the plant embryos.
Examples of these compound fruits are figs, berries, sycamores and pineapples. They are considered
to be “false” fruits because the fruit is formed by a combination of many parts of the flower along
with the ovaries.
The term “fruit” can be expanded to include any part of the plant that can be consumed without the
flower, for example, roots such as carrots and turnips, tubercles such as potatoes and yams, stems
such as sugar canes and reeds and leaves such as mint, watercress and parsley.
Fruits, whether coming from real flowers, non-real flowers or from no flowers are the main source of
food for human beings and for herbivore animals that people raise to benefit from their milk, meat,
fat and skin. These fruits are an important source of carbohydrates, proteins, vitamins, organic acids,
oils, fats, wax, medicine and dyes. They are also an important source for the fibers used in the
manufacture of fabrics like cotton.
The difference in the colors of fruits shows the difference in their pigmentation
Just as fruits differ in their growth patterns, they differ also in their colors, smell and taste. These
differences are a result of their chemical composition, their natural characteristics and the amounts of
nutrients and water they contain. This is a result of the ability that Allah (SWT) has given to each
plant to use a prescribed amount of elements and components in the earth from the ground in which
it grows.
The internal and external colors of fruit differ distinctively; this is due to the different ratios of
pigments that each contains in its skin and inside the fruit.
These plant pigments are made up of primary and secondary colors; the final color of the fruit,
internally and externally, depends on the ratios of these pigments. With the different combinations of
these ratios, the number of colors of fruits is almost infinite.
The Basic Plant Pigmentation Group
This group comprises many shades of pigments that can be classified as follows:
(1) Green Pigments: known as chlorophyll, they provide the different tones of green in all green
plants. They are considered the most important pigment in plants due to their role in the
process of photosynthesis. They are found in leaves and concentrated in the form of very tiny
plastids. They attract the sun rays and use it to dissolve water (rising to the leaves with the
nutritional fluids extracted from the soil by capillarity) and carbon dioxide (absorbed by the
plants). They are broken down to form the main elements in plants. These elements are then
transformed into carbohydrates and sugars, releasing oxygen into the air. This process,
known as photosynthesis, produces most of the energy needed by the plant and is usually
stored in the form of chemical compounds and carbohydrates needed by the plant. These
carbohydrates are also vital for the lives of people and animals. The green plastids usually
include a number of other pigments (as well as green ones); when the green pigments
decrease in number, these other hidden pigments show up and that is how green plastids
change into colored plastids. There are also plastids with no pigments which help to store
nutritional substances like carbohydrates, proteins and fats (needed by plants for vitality and
fruit growth). The chlorophyll molecule is formed by a ring of carbon and nitrogen molecules
around an atom of magnesium and a long chain of hydrogen molecules.
(2) Yellow Pigments: known as carotinoids. They give plants various shades of yellow coloring.
They are a group of carbohydrates that have many chains, starting with yellow and ending
with brown. The most famous of these is the yellow pigment known as carotene, which is
formed of four carbon atoms and 56 hydrogen atoms.
(3) Red Pigments: known as phycobilins, they give plants various tones of red coloring. They are
a group of carbohydrates that have many chains made partially of proteins and carotinoids
that, in turn, have long chains of carbon together with molecules of chlorophyll starting with
bright red and ending with deep violet. The most famous of these are phycoarthrin (red) and
phycocyanin (a shade between indigo and violet). Fruit, in general, start off green in color
and as they approach maturity, the green starts to clear away gradually and is replaced by
the natural color of the fruit itself. This color is naturally dependent on the amount of
pigment and the chemical formation of the plant, especially in the exocarp of each fruit.
By the time fruits reach maturity, the green pigment fades away gradually or totally. Fruits
then start to acquire their natural color. Fruits such as citrus fruit, apricots, apples and yellow
plums acquire different shades of yellow. Fruits such as strawberries, cherries, red plums and
red apples acquire varying shades of red. Dates, for instance, start off green and then
become yellow, orange or red; when ripe, the exocarp becomes brown or black. Mangoes are
green to start off with and change as they mature to either yellow or orange or remain green
as they originally were. Berries start out green or white, then mature into various shades of
white, red, black, etc.
Supplementary Plant Pigmentation Groups
In addition to the basic group of pigments, there is another group of pigments known as “sensor
pigments”. These pigments are present in smaller amounts in plant tissues than the basic pigments.
Yet, they play a fundamental role in the life of plants; among them are:
(1) The group of pigments affecting the overall color of the plant, the phytochrome pigment
group.
(2) The group of invisible pigments, known as the cryptochrome pigment group.
(3) The group of pigments sensitive to ultraviolet rays, known as the ultraviolet photosensor
pigment group. Such pigments are present in plants like sunflowers. They play an important
role in the life of the plant. They also mix with other basic pigments (in varying amounts) to
provide unlimited numbers of colors for flowers and fruits and, in some cases, leaves.
The role of pigments (basic and supplementary) is not limited to providing color to flowers and fruits
as each of these pigments has a role directly related to what happens inside plant cells and tissues,
including vital chemical reactions such as photosynthesis and sensation in plants. They have many
other functions of which we are unaware. This is a sign of Allah’s divine ability to give plants
wonderful colors to attract insects that help in fertilization and pollination. They are also attractive to
people and animals who take them, eat them and throw their seeds on the ground, allowing the
plant to grow anew. This process continues eternally in a cycle that will end only when Allah wills it
to.
The ayah we have discussed here started by mentioning the water falling to the earth, showing the
role of this magnificent fluid in dissolving the many elements and compounds found in the earth to
make them fit for the nourishment and growth of plants.
Mention of the different colors and pigments shows Allah’s supreme ability to give these plants a
special DNA code that is suitable for every single plant so that it chooses suitable compounds that are
dissolved in the water, so that each flower or fruit is of the right color, even though they all grow in
the same soil and are irrigated by the same water. These facts have only been discovered recently in
the last century and have only been understood in the last few decades. However, they have been
mentioned in the Qur’an, which was revealed more than fourteen centuries ago to the Prophet
Muhammad (SAWS), to a nation of people who were mostly illiterate, providing clear evidence that
such words can never originate from a man but rather from a Creator who revealed them and
preserved them in the form in which they were first revealed; this form will remain unaltered until the
Day of Judgment as confirmed in Allah’s words that can be translated as,
“Verily, it is We Who
have sent down the Dhikr (i.e. the Qur’ân) and surely, We will guard it (from corruption)”
(TMQ, 15:9).
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By: Dr. Zaghloul Al-Najjar