�ݺ�ߣshows by User: jimmyklick

�ݺ�ߣshows by User: jimmyklick / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: jimmyklick / Mon, 03 Aug 2009 13:50:17 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: jimmyklick ALTERING TAPROOT ARCHITECTURE OF BLACK TUPELO (NYSSA SYLVATICA) TO A MORE FIBROUS ROOT SYSTEM /slideshow/research-1804715/1804715 research-12493253464304-phpapp03
I presented this powerpoint at a national conference for the American Society of Horticultural Sciences in St. Louis on July 27, 2009. ABSTRACT The demand for native plants in the urban landscape continues to increase. Traditional plant production methods in nurseries have had limited success in producing saleable plants from some of our native trees. One of the major difficulties relates to species that produce a taproot. I investigated alternate container production methods in a tree native to Illinois with multiple seasons of interest, the black tupelo (Nyssa sylvatica). Black tupelo is rarely found in the urban landscape because of a coarse root system rendering it difficult to transplant. Three existing root promotion techniques, air-root pruning, manual root pruning or auxin (K-IBA) dips, were used on container grown young seedlings and two-year-old transplanted liners. My objective was to alter taproot architecture of black tupelo and promote a more fibrous root system to alleviate transplant shock and facilitate field establishment. Results showed that superior root systems were produced using several air-root pruning containers that are also more economically feasible than similar standard containers. Higher concentrations of auxin resulted in an increase in all plant parts measured, with an increase in survival. Manual root pruning produced only minor benefit. ]]>
I presented this powerpoint at a national conference for the American Society of Horticultural Sciences in St. Louis on July 27, 2009. ABSTRACT The demand for native plants in the urban landscape continues to increase. Traditional plant production methods in nurseries have had limited success in producing saleable plants from some of our native trees. One of the major difficulties relates to species that produce a taproot. I investigated alternate container production methods in a tree native to Illinois with multiple seasons of interest, the black tupelo (Nyssa sylvatica). Black tupelo is rarely found in the urban landscape because of a coarse root system rendering it difficult to transplant. Three existing root promotion techniques, air-root pruning, manual root pruning or auxin (K-IBA) dips, were used on container grown young seedlings and two-year-old transplanted liners. My objective was to alter taproot architecture of black tupelo and promote a more fibrous root system to alleviate transplant shock and facilitate field establishment. Results showed that superior root systems were produced using several air-root pruning containers that are also more economically feasible than similar standard containers. Higher concentrations of auxin resulted in an increase in all plant parts measured, with an increase in survival. Manual root pruning produced only minor benefit. ]]> Mon, 03 Aug 2009 13:50:17 GMT /slideshow/research-1804715/1804715 jimmyklick@slideshare.net(jimmyklick) ALTERING TAPROOT ARCHITECTURE OF BLACK TUPELO (NYSSA SYLVATICA) TO A MORE FIBROUS ROOT SYSTEM jimmyklick I presented this powerpoint at a national conference for the American Society of Horticultural Sciences in St. Louis on July 27, 2009. ABSTRACT The demand for native plants in the urban landscape continues to increase. Traditional plant production methods in nurseries have had limited success in producing saleable plants from some of our native trees. One of the major difficulties relates to species that produce a taproot. I investigated alternate container production methods in a tree native to Illinois with multiple seasons of interest, the black tupelo (Nyssa sylvatica). Black tupelo is rarely found in the urban landscape because of a coarse root system rendering it difficult to transplant. Three existing root promotion techniques, air-root pruning, manual root pruning or auxin (K-IBA) dips, were used on container grown young seedlings and two-year-old transplanted liners. My objective was to alter taproot architecture of black tupelo and promote a more fibrous root system to alleviate transplant shock and facilitate field establishment. Results showed that superior root systems were produced using several air-root pruning containers that are also more economically feasible than similar standard containers. Higher concentrations of auxin resulted in an increase in all plant parts measured, with an increase in survival. Manual root pruning produced only minor benefit. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/research-12493253464304-phpapp03-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> I presented this powerpoint at a national conference for the American Society of Horticultural Sciences in St. Louis on July 27, 2009. ABSTRACT The demand for native plants in the urban landscape continues to increase. Traditional plant production methods in nurseries have had limited success in producing saleable plants from some of our native trees. One of the major difficulties relates to species that produce a taproot. I investigated alternate container production methods in a tree native to Illinois with multiple seasons of interest, the black tupelo (Nyssa sylvatica). Black tupelo is rarely found in the urban landscape because of a coarse root system rendering it difficult to transplant. Three existing root promotion techniques, air-root pruning, manual root pruning or auxin (K-IBA) dips, were used on container grown young seedlings and two-year-old transplanted liners. My objective was to alter taproot architecture of black tupelo and promote a more fibrous root system to alleviate transplant shock and facilitate field establishment. Results showed that superior root systems were produced using several air-root pruning containers that are also more economically feasible than similar standard containers. Higher concentrations of auxin resulted in an increase in all plant parts measured, with an increase in survival. Manual root pruning produced only minor benefit.

ALTERING TAPROOT ARCHITECTURE OF BLACK TUPELO (NYSSA SYLVATICA) TO A MORE FIBROUS ROOT SYSTEM from jimmyklick

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