Plant Tissue Culture, Development and Biotechnology
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Bester Preis: € 82,30 (vom 03.11.2018)1
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Plant Tissue Culture, Development and Biotechnology (Hardback) (2018)
EN HC NWISBN: 9781773612560 bzw. 1773612565, in Englisch, Arcler Education Inc, Canada, gebundenes Buch, neu.
Lieferung aus: Vereinigtes Königreich Großbritannien und Nordirland, Free shipping.
Von Händler/Antiquariat, Book Depository hard to find [63688905], London, United Kingdom.
Language: English. Brand new Book. The constant acquisition of energy is what determines all life on earth. The sun generates almost all renewable energy through radiation. In turn, radiant energy ends up heating the earth where it causes convection and contributes immensely to weather patterns. Through the atmosphere, the weather patterns transfer water from lakes and oceans to the land surface and back. This forms the fundamental environment needed to support life. However, life requires chemical energy to thrive, and a greater percentage of this energy is derived from sunlight.Plants containing chlorophyll participate in energy capture, and use photons to move the cleavage water into hydrogen and oxygen. In photosynthesis, carbon dioxide (part of it created from the respiration of animals, plants, bacteria and fungi) is finally recycled by its change into water, sugar and oxygen. Sugar's chemical energy then helps to drive the rest of metabolic reactions required to sustain life. Therefore, the carbon in sugar is used in the production of more complex carbohydrates in addition to proteins and other molecules that consists the cells, organs and tissues of plants. In turn, the nutritive components and chemical energy found in plants become the main source of energy for animals. It is this basic ability of green plants to survive and reproduce by acquiring and using energy from the sun that has resulted in the huge diversity of earth's life.The evolutionary power of natural selection that perpetually drives the diversification of animals and plants is well known. Nevertheless, humankind has changed the course of natural selection by preferring certain sources of food to others, thus encouraging and selecting those that seem superior in one way or the other. The selection of improved 'varieties' begun in an unintentional manner but over the millennia, it became more organized. Ultimately, selective breeding in plants (and also animals) came into the scene, forming the cornerstone of contemporary agricultural development.Agricultural development then became the backbone of modern civilization, letting humans switch from a subsistence lifestyle to one that encourages pursuit of activities that no one had imagined earlier on. And relevant to these "unimaginable activities" is the start, development, and pursuit of plant science. The human endeavour is responsible for the development of plants into diverse, useful products. Today, it is possible to develop improved plants using previously unrecognized methods. Breeding programs continue to undergo revolution with biotechnology, and the result is plants with properties never imagined before. Along with this rapid change, there comes controversy - optimism, new discussions, opportunities, and fear of the unknown.
Von Händler/Antiquariat, Book Depository hard to find [63688905], London, United Kingdom.
Language: English. Brand new Book. The constant acquisition of energy is what determines all life on earth. The sun generates almost all renewable energy through radiation. In turn, radiant energy ends up heating the earth where it causes convection and contributes immensely to weather patterns. Through the atmosphere, the weather patterns transfer water from lakes and oceans to the land surface and back. This forms the fundamental environment needed to support life. However, life requires chemical energy to thrive, and a greater percentage of this energy is derived from sunlight.Plants containing chlorophyll participate in energy capture, and use photons to move the cleavage water into hydrogen and oxygen. In photosynthesis, carbon dioxide (part of it created from the respiration of animals, plants, bacteria and fungi) is finally recycled by its change into water, sugar and oxygen. Sugar's chemical energy then helps to drive the rest of metabolic reactions required to sustain life. Therefore, the carbon in sugar is used in the production of more complex carbohydrates in addition to proteins and other molecules that consists the cells, organs and tissues of plants. In turn, the nutritive components and chemical energy found in plants become the main source of energy for animals. It is this basic ability of green plants to survive and reproduce by acquiring and using energy from the sun that has resulted in the huge diversity of earth's life.The evolutionary power of natural selection that perpetually drives the diversification of animals and plants is well known. Nevertheless, humankind has changed the course of natural selection by preferring certain sources of food to others, thus encouraging and selecting those that seem superior in one way or the other. The selection of improved 'varieties' begun in an unintentional manner but over the millennia, it became more organized. Ultimately, selective breeding in plants (and also animals) came into the scene, forming the cornerstone of contemporary agricultural development.Agricultural development then became the backbone of modern civilization, letting humans switch from a subsistence lifestyle to one that encourages pursuit of activities that no one had imagined earlier on. And relevant to these "unimaginable activities" is the start, development, and pursuit of plant science. The human endeavour is responsible for the development of plants into diverse, useful products. Today, it is possible to develop improved plants using previously unrecognized methods. Breeding programs continue to undergo revolution with biotechnology, and the result is plants with properties never imagined before. Along with this rapid change, there comes controversy - optimism, new discussions, opportunities, and fear of the unknown.
2
Plant Tissue Culture, Development and Biotechnology (2017)
EN HC NWISBN: 9781773612560 bzw. 1773612565, in Englisch, 282 Seiten, Delve Publishing, gebundenes Buch, neu.
Lieferung aus: Vereinigte Staaten von Amerika, Usually ships in 1-2 business days, Real shipping costs can differ.
Von Händler/Antiquariat, BOOKS_EXPRESS_USA.
The constant acquisition of energy is what determines all life on earth. The sun generates almost all renewable energy through radiation. In turn, radiant energy ends up heating the earth where it causes convection and contributes immensely to weather patterns. Through the atmosphere, the weather patterns transfer water from lakes and oceans to the land surface and back. This forms the fundamental environment needed to support life. However, life requires chemical energy to thrive, and a greater percentage of this energy is derived from sunlight.Plants containing chlorophyll participate in energy capture, and use photons to move the cleavage water into hydrogen and oxygen. In photosynthesis, carbon dioxide (part of it created from the respiration of animals, plants, bacteria and fungi) is finally recycled by its change into water, sugar and oxygen. Sugar’s chemical energy then helps to drive the rest of metabolic reactions required to sustain life. Therefore, the carbon in sugar is used in the production of more complex carbohydrates in addition to proteins and other molecules that consists the cells, organs and tissues of plants. In turn, the nutritive components and chemical energy found in plants become the main source of energy for animals. It is this basic ability of green plants to survive and reproduce by acquiring and using energy from the sun that has resulted in the huge diversity of earth’s life.The evolutionary power of natural selection that perpetually drives the diversification of animals and plants is well known. Nevertheless, humankind has changed the course of natural selection by preferring certain sources of food to others, thus encouraging and selecting those that seem superior in one way or the other. The selection of improved ‘varieties’ begun in an unintentional manner but over the millennia, it became more organized. Ultimately, selective breeding in plants (and also animals) came into the scene, forming the cornerstone of contemporary agricultural development.Agricultural development then became the backbone of modern civilization, letting humans switch from a subsistence lifestyle to one that encourages pursuit of activities that no one had imagined earlier on. And relevant to these “unimaginable activities” is the start, development, and pursuit of plant science. The human endeavour is responsible for the development of plants into diverse, useful products. Today, it is possible to develop improved plants using previously unrecognized methods. Breeding programs continue to undergo revolution with biotechnology, and the result is plants with properties never imagined before. Along with this rapid change, there comes controversy – optimism, new discussions, opportunities, and fear of the unknown. Hardcover, Label: Delve Publishing, Delve Publishing, Product group: Book, Published: 2017-11-01, Studio: Delve Publishing.
Von Händler/Antiquariat, BOOKS_EXPRESS_USA.
The constant acquisition of energy is what determines all life on earth. The sun generates almost all renewable energy through radiation. In turn, radiant energy ends up heating the earth where it causes convection and contributes immensely to weather patterns. Through the atmosphere, the weather patterns transfer water from lakes and oceans to the land surface and back. This forms the fundamental environment needed to support life. However, life requires chemical energy to thrive, and a greater percentage of this energy is derived from sunlight.Plants containing chlorophyll participate in energy capture, and use photons to move the cleavage water into hydrogen and oxygen. In photosynthesis, carbon dioxide (part of it created from the respiration of animals, plants, bacteria and fungi) is finally recycled by its change into water, sugar and oxygen. Sugar’s chemical energy then helps to drive the rest of metabolic reactions required to sustain life. Therefore, the carbon in sugar is used in the production of more complex carbohydrates in addition to proteins and other molecules that consists the cells, organs and tissues of plants. In turn, the nutritive components and chemical energy found in plants become the main source of energy for animals. It is this basic ability of green plants to survive and reproduce by acquiring and using energy from the sun that has resulted in the huge diversity of earth’s life.The evolutionary power of natural selection that perpetually drives the diversification of animals and plants is well known. Nevertheless, humankind has changed the course of natural selection by preferring certain sources of food to others, thus encouraging and selecting those that seem superior in one way or the other. The selection of improved ‘varieties’ begun in an unintentional manner but over the millennia, it became more organized. Ultimately, selective breeding in plants (and also animals) came into the scene, forming the cornerstone of contemporary agricultural development.Agricultural development then became the backbone of modern civilization, letting humans switch from a subsistence lifestyle to one that encourages pursuit of activities that no one had imagined earlier on. And relevant to these “unimaginable activities” is the start, development, and pursuit of plant science. The human endeavour is responsible for the development of plants into diverse, useful products. Today, it is possible to develop improved plants using previously unrecognized methods. Breeding programs continue to undergo revolution with biotechnology, and the result is plants with properties never imagined before. Along with this rapid change, there comes controversy – optimism, new discussions, opportunities, and fear of the unknown. Hardcover, Label: Delve Publishing, Delve Publishing, Product group: Book, Published: 2017-11-01, Studio: Delve Publishing.
3
Symbolbild
Plant Tissue Culture, Development and Biotechnology
EN HC NWISBN: 9781773612560 bzw. 1773612565, in Englisch, Arcler Education Inc, gebundenes Buch, neu.
Von Händler/Antiquariat, THE SAINT BOOKSTORE [51194787], Southport, United Kingdom.
New copy - Usually dispatched within 2 working days, Books.
New copy - Usually dispatched within 2 working days, Books.
4
Symbolbild
Plant Tissue Culture, Development and Biotechnology (2018)
EN HC NWISBN: 9781773612560 bzw. 1773612565, in Englisch, Arcler Education Inc, gebundenes Buch, neu.
Lieferung aus: Vereinigtes Königreich Großbritannien und Nordirland, plus shipping, Shipping area: EUR.
Von Händler/Antiquariat, The Saint Bookstore, MERSEYSIDE, Southport, [RE:4].
Hard cover.
Von Händler/Antiquariat, The Saint Bookstore, MERSEYSIDE, Southport, [RE:4].
Hard cover.
5
Symbolbild
Plant Tissue Culture, Development and Biotechnology (2018)
EN HC NWISBN: 9781773612560 bzw. 1773612565, in Englisch, Delve Publishing, gebundenes Buch, neu.
Lieferung aus: Vereinigtes Königreich Großbritannien und Nordirland, plus shipping, Shipping area: EUR.
Von Händler/Antiquariat, Herb Tandree Philosophy Books, Stroud, Glos, [RE:4].
Hardback.
Von Händler/Antiquariat, Herb Tandree Philosophy Books, Stroud, Glos, [RE:4].
Hardback.
6
Plant Tissue Culture, Development and Biotechnology
EN HC NWISBN: 9781773612560 bzw. 1773612565, in Englisch, Delve Publishing, gebundenes Buch, neu.
Lieferung aus: Vereinigte Staaten von Amerika, In Stock.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
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