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INFLUENCE OF SFAGNUM PEAT ON SOIL AGROCHEMICAL PROPERTIES AND MINERAL NUTRITION OF HIGHBUSH BLUEBERRIES

Student Mg. Jana Apљe

First published: 2013-06-20https://doi.org/10.5593/sgem2013/bc3/s13.010View metrics

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Title
INFLUENCE OF SFAGNUM PEAT ON SOIL AGROCHEMICAL PROPERTIES AND MINERAL NUTRITION OF HIGHBUSH BLUEBERRIES
Authors
Student Mg. Jana Apљe
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on WATER RESOURCES. FOREST, MARINE AND OCEAN ECOSYSTEMS
Publisher
Stef92 Technology
Year
2013
Pages
553 - 562 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References52
  1. Haynes R.J. & Swift R.S. Effect of soil amendments and sawdust mulching on growth, yield and leaf nutri ent of highbush bluberry plants, Scientia Horticultura, USA, v ol. 119, pp 41–48, 1986.

  2. Austin M.E. & Bondari K. Response of established rabbiteye blueberry to soil amendments and fertilizers, Journal of Small Fruit and Viticulture, USA, vol. 1, No. 1, pp 27–37, 1992.

  3. Smolarz K. Short information about the history of the commercial cultivation highbush blueberry in Poland, Latvian Journal Agron omy, (Agronomijas Vēstis) , Latvia, No. 12, pp 119–122, 2009.

  4. Xie Z.S. & Wu X.C. Studies on substrates for blueberry cultivation, Acta Horticulturae, Netherlands, vol. 810, pp 513–520, 2009.

  5. Nollendorfs V. Augsto krūmmelleņu prasības pēc augsnes un mēslojuma [Highbush blueberry requirements for soil and fertilization], Latvian Journal Agron omy (AgroPols), Latvia, No. 12, pp 8–10, 2004.

  6. Osvalde A. & Nollendorfs V. & Karlsons A. & Pormale J. Dzērveņu un krūmmelleņu minerālā barošanās [Mineral nutrition of cranberries and blueberries ], Latvian Journal Agronomy (Agrotops), Latvia, No. 3, pp 62–64, 2011.

  7. Kārkliņš A. & Gemste I. & Mežals H. & Nikodemus O. & Skujāns R. Latvijas augšņu noteicējs (Taxonomy of Latvia soils) LLU, Jelgava, Latvia, 240 p, 2009.

  8. World Reference Base for Soil Resources 2006: A framework for international classification, correlation and communication, World Soil Resources Reports No. 103, Rome: FAO, 128 p, 2006.

  9. Kārkliņš A. Augšņu diagnostika un apraksts [Guidelines for Soil Diagnosis and Description], Jelgava: LLU, Latvia, 336 p, 2008.

  10. Pormale L. & Osvalde A. & Nollendorfs V. Comparison study of cultivated highbush and wild blueberry nutrient status in producing plantings and woodlands, Latvian Journal Agronomy, (Agronomijas Vēstis), Latvia, No. 12, pp 80–87, 2009. GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

  11. Li Y. & Tang X. & Wulin & Zang Z. Effect of organic material on soil properties, plant growth, le af photosynthesis, nutrient uptake and mycor rhizal infection of blueberries, Acta Horticulturae, China, vol. 715, pp 375–380, 2006.

  12. Ancu I. & Iancu M. & Mladin P. & Ancu S. The planting effects on some growth characteristics of seven blueberry cultivars, Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca Horticulture, USA, vol. 67, No 1, pp –95, 2010.

  13. Vano I & Matsushima M. & Tang C. & Inubushi K. Effects of peat moss and sawdust compost application on N 2O emission and N leaching in blueberry cultivating soils, Soil Science and Plant Nutrition, Canada, vol. 57, No. 2, pp 348–360, 2011.

  14. Smagula J.M. & McGovern K.B. Effects of gypsum on nutrient uptake, growth and yield of the wild lowbush blueberry, Acta Horticulturae, USA, vol. 938, No 11, pp 307– 314, 2012.

  15. Hancock J. Highbush blueberry breeding. Latvian Journal Agronomy (A gronomijas Vēstis), Latvia, No. 12, pp 35–38, 2009.

  16. Paal T. & Starast M. & Noormets-Sanski M. & Vool E. & Tasa T. & Karp K. Influence of liming and fertilization on lowbush blueberry in harvested peat field condition, Scientia Horticulturae, Estonia, vol. 130, pp 157–163, 2011.

  17. Haynes R.J. & Swift R.S. Growth and nutrient uptake by highbush blueberry plants in a peat medium as influenced by pH, applied micronutrients and mycorrizal inoculation, Scientia Horticulturae, USA, vol. 27, No. 3 – 4, pp 285–294, 1985.

  18. Sanderson K.R. & Carterl M.R., Ivany, J.A. Effects of gypsum on yield and nutrient status of native lowbush blueberry, Canadian Journal of Plant Science, Canada, v ol. 76, pp 361–366, 1995.

  19. Ochmian I. & Grajkowski J. & Mikiciuk G. & Ostrowska K. & Chelpinski P. Mineral composition of high blueberry leaves and fruits depending on substrate type used for cultivation, Journal of Elementalogy, Poland, vol. 14/ issue 3, pp 509 – 516, 2009.

  20. Hart G. & Strik B & White L. & Yang W. Nutrient management for blueberries in Oregon, Oregon State University Extension Service, Nutrient management guide, USA, EM 8918, 2006.

  21. Ripa A. Dzērvenes, zilenes, brūklenes dārzā [ Cranberries, blueberries and red bilberries in the garden], Rīga: Avots, Latvia, 106 p, 1992.

  22. Nollendorfs V. & Karlsons A. & Čekstere G. Krūmmelleņu mēslošana minerālaugsnēs [Blueberry fertilization in mineral soils], Dārzs un Drava, [Latv ian Journal Gardener], Latvia, No. 1, pp 26–29, 2007.

  23. Hendershot W.H. & Lande H. & Duguette M. Soil reaction and exchangeable acidity, Soil Sampling and Methods of Analysis, Canada, pp171 – 178, 2007.

  24. Kondratowicz-Maciejewska K. & Kobierski M. Content of available magnesium, phosphorus and potassium forms in soil exposed to various crop rotation and fertilization, Journal of Elementology, Poland, vol. 16/ issue 4, pp 543–553, 2011.

  25. Marschner H. Mineral nutrition of higher plants. 2 nd editions, London, San Diego, New York: Academic Press, USA, 889 p, 1995.

  26. Burkhard N. & Lynch D. & Percival D. Effects of pine -needle and compost mulches and weeds on nitrogen dynamics in an organically -managed highbush blueberry field, Acta Horticulturae, Canada, vol. 873, No 9, pp 253–260, 2010.

  27. Haynes R.J. & Swift R.S. Effect of soil amendments and sawdust mulching on growth, yield and leaf nutri ent of highbush bluberry plants, Scientia Horticultura, USA, v ol. 119, pp 41–48, 1986.

  28. Austin M.E. & Bondari K. Response of established rabbiteye blueberry to soil amendments and fertilizers, Journal of Small Fruit and Viticulture, USA, vol. 1, No. 1, pp 27–37, 1992.

  29. Smolarz K. Short information about the history of the commercial cultivation highbush blueberry in Poland, Latvian Journal Agron omy, (Agronomijas Vēstis) , Latvia, No. 12, pp 119–122, 2009.

  30. Xie Z.S. & Wu X.C. Studies on substrates for blueberry cultivation, Acta Horticulturae, Netherlands, vol. 810, pp 513–520, 2009.

  31. Nollendorfs V. Augsto krūmmelleņu prasības pēc augsnes un mēslojuma [Highbush blueberry requirements for soil and fertilization], Latvian Journal Agron omy (AgroPols), Latvia, No. 12, pp 8–10, 2004.

  32. Osvalde A. & Nollendorfs V. & Karlsons A. & Pormale J. Dzērveņu un krūmmelleņu minerālā barošanās [Mineral nutrition of cranberries and blueberries ], Latvian Journal Agronomy (Agrotops), Latvia, No. 3, pp 62–64, 2011.

  33. Kārkliņš A. & Gemste I. & Mežals H. & Nikodemus O. & Skujāns R. Latvijas augšņu noteicējs (Taxonomy of Latvia soils) LLU, Jelgava, Latvia, 240 p, 2009.

  34. World Reference Base for Soil Resources 2006: A framework for international classification, correlation and communication, World Soil Resources Reports No. 103, Rome: FAO, 128 p, 2006.

  35. Kārkliņš A. Augšņu diagnostika un apraksts [Guidelines for Soil Diagnosis and Description], Jelgava: LLU, Latvia, 336 p, 2008.

  36. Pormale L. & Osvalde A. & Nollendorfs V. Comparison study of cultivated highbush and wild blueberry nutrient status in producing plantings and woodlands, Latvian Journal Agronomy, (Agronomijas Vēstis), Latvia, No. 12, pp 80–87, 2009. GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

  37. Li Y. & Tang X. & Wulin & Zang Z. Effect of organic material on soil properties, plant growth, le af photosynthesis, nutrient uptake and mycor rhizal infection of blueberries, Acta Horticulturae, China, vol. 715, pp 375–380, 2006.

  38. Ancu I. & Iancu M. & Mladin P. & Ancu S. The planting effects on some growth characteristics of seven blueberry cultivars, Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca Horticulture, USA, vol. 67, No 1, pp –95, 2010.

  39. Vano I & Matsushima M. & Tang C. & Inubushi K. Effects of peat moss and sawdust compost application on N 2O emission and N leaching in blueberry cultivating soils, Soil Science and Plant Nutrition, Canada, vol. 57, No. 2, pp 348–360, 2011.

  40. Smagula J.M. & McGovern K.B. Effects of gypsum on nutrient uptake, growth and yield of the wild lowbush blueberry, Acta Horticulturae, USA, vol. 938, No 11, pp 307– 314, 2012.

  41. Hancock J. Highbush blueberry breeding. Latvian Journal Agronomy (A gronomijas Vēstis), Latvia, No. 12, pp 35–38, 2009.

  42. Paal T. & Starast M. & Noormets-Sanski M. & Vool E. & Tasa T. & Karp K. Influence of liming and fertilization on lowbush blueberry in harvested peat field condition, Scientia Horticulturae, Estonia, vol. 130, pp 157–163, 2011.

  43. Haynes R.J. & Swift R.S. Growth and nutrient uptake by highbush blueberry plants in a peat medium as influenced by pH, applied micronutrients and mycorrizal inoculation, Scientia Horticulturae, USA, vol. 27, No. 3 – 4, pp 285–294, 1985.

  44. Sanderson K.R. & Carterl M.R., Ivany, J.A. Effects of gypsum on yield and nutrient status of native lowbush blueberry, Canadian Journal of Plant Science, Canada, v ol. 76, pp 361–366, 1995.

  45. Ochmian I. & Grajkowski J. & Mikiciuk G. & Ostrowska K. & Chelpinski P. Mineral composition of high blueberry leaves and fruits depending on substrate type used for cultivation, Journal of Elementalogy, Poland, vol. 14/ issue 3, pp 509 – 516, 2009.

  46. Hart G. & Strik B & White L. & Yang W. Nutrient management for blueberries in Oregon, Oregon State University Extension Service, Nutrient management guide, USA, EM 8918, 2006.

  47. Ripa A. Dzērvenes, zilenes, brūklenes dārzā [ Cranberries, blueberries and red bilberries in the garden], Rīga: Avots, Latvia, 106 p, 1992.

  48. Nollendorfs V. & Karlsons A. & Čekstere G. Krūmmelleņu mēslošana minerālaugsnēs [Blueberry fertilization in mineral soils], Dārzs un Drava, [Latv ian Journal Gardener], Latvia, No. 1, pp 26–29, 2007.

  49. Hendershot W.H. & Lande H. & Duguette M. Soil reaction and exchangeable acidity, Soil Sampling and Methods of Analysis, Canada, pp171 – 178, 2007.

  50. Kondratowicz-Maciejewska K. & Kobierski M. Content of available magnesium, phosphorus and potassium forms in soil exposed to various crop rotation and fertilization, Journal of Elementology, Poland, vol. 16/ issue 4, pp 543–553, 2011.

  51. Marschner H. Mineral nutrition of higher plants. 2 nd editions, London, San Diego, New York: Academic Press, USA, 889 p, 1995.

  52. Burkhard N. & Lynch D. & Percival D. Effects of pine -needle and compost mulches and weeds on nitrogen dynamics in an organically -managed highbush blueberry field, Acta Horticulturae, Canada, vol. 873, No 9, pp 253–260, 2010.

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