Silicon in Agriculture ( Volume 8 )

Publication series ：Volume 8

Author： Datnoff L. E.;Snyder G. H.;Korndörfer G. H.

Publisher： Elsevier Science‎

Publication year： 2001

E-ISBN: 9780080541228

P-ISBN(Paperback): 9780444502629

P-ISBN(Hardback): 9780444502629

Subject： S15 pedology;S5 Cultivation of Crops

Language： ENG

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Description

Presenting the first book to focus on the importance of silicon for plant health and soil productivity and on our current understanding of this element as it relates to agriculture.

Long considered by plant physiologists as a non-essential element, or plant nutrient, silicon was the center of attention at the first international conference on Silicon in Agriculture, held in Florida in 1999.

Ninety scientists, growers, and producers of silicon fertilizer from 19 countries pondered a paradox in plant biology and crop science. They considered the element Si, second only to oxygen in quantity in soils, and absorbed by many plants in amounts roughly equivalent to those of such nutrients as sulfur or magnesium. Some species, including such staples as rice, may contain this element in amounts as great as or even greater than any other inorganic constituent. Compilations of the mineral composition of plants, however, and much of the plant physiological literature largely ignore this element. The participants in Silicon in Agriculture explored that extraordinary discrepancy between the silicon content of plants and that of the plant research enterprise.

The participants, all of whom are active in agricultural science, with an emphasis on crop production, presented, and were presented with, a wealth of evidence that silicon plays a multitude of functions in the real world of plant life. Many soils in the humid tropics are low in plant available silic

Chapter

Front Cover

pp.： 1 – 4

Silicon in Agriculture

pp.： 4 – 5

pp.： 5 – 14

Table of Contents

pp.： 14 – 22

Chapter 1. Silicon in plants: Facts vs. concepts

pp.： 22 – 38

Chapter 2. Silicon as a beneficial element for crop plants

pp.： 38 – 62

Chapter 3. Silicon transport at the cell and tissue level

pp.： 62 – 78

Chapter 4. A primer on the aqueous chemistry of silicon

pp.： 78 – 106

Chapter 5. Silicon Deposition in Higher Plants

pp.： 106 – 136

Chapter 6. Silicon in horticultural crops grown in soilless culture

pp.： 136 – 154

Chapter 7. Effect of silicon on plant growth and crop yield

pp.： 154 – 170

Chapter 8. Plant genotype, silicon concentration, and silicon-related responses

pp.： 170 – 180

Chapter 9. Silicon and disease resistance in dicotyledons

pp.： 180 – 192

Chapter 10. The use of silicon for integrated disease management: reducing fungicide applications and enhancing host plant resistance

pp.： 192 – 206

Chapter 11. Methods for silicon analysis in plants, soils, and fertilizers

pp.： 206 – 218

Chapter 12. Silicon sources for agriculture

pp.： 218 – 230

Chapter 13. The relationship between silicon and soil physical and chemical properties

pp.： 230 – 242

Chapter 14. The economics of silicon for integrated management and sustainable production of rice and sugarcane

pp.： 242 – 262

Chapter 15. Silicon research down under: past, present, and future

pp.： 262 – 278

Chapter 16. Past, present and future research of the role of silicon for sugarcane in southern Africa

pp.： 278 – 298

Chapter 17. Review of research in Japan on the roles of silicon in conferring resistance against rice blast

pp.： 298 – 314

Chapter 18. Silicon from rice disease control perspective in Brazil

pp.： 314 – 334

Chapter 19. Effects of silicon fertilization on disease development and yields of rice in Colombia

pp.： 334 – 344

Chapter 20. Plant related silicon research in Canada

pp.： 344 – 364

Chapter 21. Agricultural utilization of silicon in China

pp.： 364 – 380

Chapter 22. Past and future advances in silicon research in the Republic of Korea

pp.： 380 – 394

Poster Abstracts

pp.： 394 – 414

Index

pp.： 414 – 426

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