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Rates of Growth  
  
1720   11:31 صباحاً   date: 18-10-2016
Author : AN INTRODUCTION TO PLANT BIOLOGY-1998
Book or Source : JAMES D. MAUSETH
Page and Part :


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Date: 2-11-2016 2117
Date: 8-11-2016 8766
Date: 6-11-2016 2376

Rates of Growth

 

An organism, or a part of an organism, can produce more cells in a variety of ways. The two ways that are most important for you to understand are called arithmetic and geometric increase.

In arithmetic increase, only one cell is allowed to divide. Of the two resulting progeny cells, one continues to be able to divide but the other undergoes cell cycle arrest and begins to develop, differentiate, and mature. After each round of cell division, only a single cell remains capable of division and one new body cell exists. For example, starting with a single cell, after round 1 of cell division there is one dividing cell and one body cell, after round 2 there are two body cells, after round 3 there are three, and so on. To obtain a plant body containing one million cells (which would be a very small body), the plant's single dividing cell would undergo one million rounds of nuclear and cellular division. If each round requires one day, this type of arithmetic increase would require one million days, or 2739.7 years. As you can imagine, this arithmetic rate of increase is too slow to ever produce an entire plant or animal. However, it is capable of producing the small number of cells present in very small parts of plants. For example, the hairs on many leaves and stems consist of just a single row of cells produced by the division of the basal cell, the cell at the bottom of the hair next to the other epidermal cells. The hair may contain five to ten cells, so all its cells could be produced in just five to ten days by divisions of the basal cell; this would be quick compared with the rest of leaf development, which might take weeks or months.

An alternative pattern of growth by cell division, geometric increase, results if all cells of the organism or tissue are active mitotically. Again starting with a single cell, after round 1 of cell division, there are two cells capable of cell division, after round 2 there are four, after round 3 there are eight, and so on. The number of cells increases extremely rapidly and can be calculated as a power of 2. After round 3 there are 23 = 8 cells, and after round 10 there are 210 = 1024 cells (these calculations should be easy for you on any pocket calculator). Notice that after round 20 there are already 220 = 1,048,576 cells. If, as in our previous example, each round of cell division re-quires one day, it now takes the plant only 20 days, not thousands of years, to reach a size of one million cells. With geometric in-crease, a large plant or animal body can be produced quickly.

In fact, geometric growth is common in animals but rarely occurs in plants except when they are extremely young and small. The problem is that in plants, dividing cells are typically simple and do not carry out many of the specialized metabolic processes necessary for plant survival. They cannot be the tough, hard fiber cells that make wood strong enough to hold up a tree; they cannot be the waxy, waterproofing cells of the plant's skin that protect it from fungi, bacteria, and loss of water.

Plants grow by a combination of arithmetic and geometric increase. A young, em-bryonic plant grows geometrically and rap-idly, with all its cells dividing. Then cell division becomes restricted to certain cells at example, each round of cell division re-quires one day, it now takes the plant only 20 days, not thousands of years, to reach a size of one million cells. With geometric in-crease, a large plant or animal body can be produced quickly.

In fact, geometric growth is common in animals but rarely occurs in plants except when they are extremely young and small. The problem is that in plants, dividing cells are typically simple and do not carry out many of the specialized metabolic processes necessary for plant survival. They cannot be the tough, hard fiber cells that make wood strong enough to hold up a tree; they cannot be the waxy, waterproofing cells of the plant's skin that protect it from fungi, bacteria, and loss of water. the tips of roots and shoots. After this point, growth is of the slower arithmetic type, but some of the new cells that are produced can develop into their mature condition and begin carrying out specialized types of metabolism. Plants are thus a mixture of older, mature cells and young, dividing cells.

 




علم الأحياء المجهرية هو العلم الذي يختص بدراسة الأحياء الدقيقة من حيث الحجم والتي لا يمكن مشاهدتها بالعين المجرَّدة. اذ يتعامل مع الأشكال المجهرية من حيث طرق تكاثرها، ووظائف أجزائها ومكوناتها المختلفة، دورها في الطبيعة، والعلاقة المفيدة أو الضارة مع الكائنات الحية - ومنها الإنسان بشكل خاص - كما يدرس استعمالات هذه الكائنات في الصناعة والعلم. وتنقسم هذه الكائنات الدقيقة إلى: بكتيريا وفيروسات وفطريات وطفيليات.



يقوم علم الأحياء الجزيئي بدراسة الأحياء على المستوى الجزيئي، لذلك فهو يتداخل مع كلا من علم الأحياء والكيمياء وبشكل خاص مع علم الكيمياء الحيوية وعلم الوراثة في عدة مناطق وتخصصات. يهتم علم الاحياء الجزيئي بدراسة مختلف العلاقات المتبادلة بين كافة الأنظمة الخلوية وبخاصة العلاقات بين الدنا (DNA) والرنا (RNA) وعملية تصنيع البروتينات إضافة إلى آليات تنظيم هذه العملية وكافة العمليات الحيوية.



علم الوراثة هو أحد فروع علوم الحياة الحديثة الذي يبحث في أسباب التشابه والاختلاف في صفات الأجيال المتعاقبة من الأفراد التي ترتبط فيما بينها بصلة عضوية معينة كما يبحث فيما يؤدي اليه تلك الأسباب من نتائج مع إعطاء تفسير للمسببات ونتائجها. وعلى هذا الأساس فإن دراسة هذا العلم تتطلب الماماً واسعاً وقاعدة راسخة عميقة في شتى مجالات علوم الحياة كعلم الخلية وعلم الهيأة وعلم الأجنة وعلم البيئة والتصنيف والزراعة والطب وعلم البكتريا.