LEADER 05868ctm  2200541 i 4500001    ocm56721441
003    OCoLC
005    20231106091103.0
008    041013s2003    xx a     bm   000 0 eng d
035    (Sirsi) o56721441
035    (OCoLC)56721441
040    ERE |beng |erda |cERE |dOCLCF |dOCLCO |dOCLCQ |dOCLCO |dOCL |dOCLCO |dOCLCQ |dOCLCO |dERE |dUtOrBLW
043    n-us-nc
049    EREE
050  4 SD403.5 |b.B56 2003
100 1  Bloom, Josie C., |eauthor. |?UNAUTHORIZED
245 10 Clonal micropropagation with fir and characterizing a drought-stress responsive gene in pine / |cby Josie C. Bloom.
264  0  |c2003.
300    ix, 69 leaves : |billustrations (some color) ; |c28 cm
336    text |btxt |2rdacontent
337    unmediated |bn |2rdamedia
338    volume |bnc |2rdacarrier
502     |bM.S. |cEast Carolina University |d2003
500    Presented to the faculty of the Department of Biology.
500    Advisor: Ronald J. Newton
520 3  The overall goal of our research is to increase Christmas tree production in the eastern region of North Carolina. One strategy is to identify species that can tolerate heat and drought, and to multiply genetic selections using micropropagation procedures. A second strategy is to identify and characterize drought tolerance genes, which subsequently could be used to transform drought tolerant species and enhance their tolerance to drought even more. I hypothesized that: micropropagation procedures established for pine species can be adapted to fir species: a drought-responsive gene (clT) isolated from allepo pine can improve drought tolerance, and Nordmann fir is more drought-tolerant than other fir species. My objectives were: (1) to develop clonal propagation procedures for selected fir Christmas trees, (2) to identify and characterize a pine drought-induced gene and (3) to evaluate the growth and survival of five fir species on a drought-prone field site. Clonal propagation procedures tested on four fir species were organogenesis, embryogenesis and lateral bud development. Balsam fir shoots were obtained from hypocotyls and cotyledon explants and were transplanted into root induction media. Organogenesis procedures could not be established for other fir species due to bacterial and/or fungal contamination. Embryogenesis procedures were tested with Fraser fir using cones harvested over three summers as a source of immature zygotic embryo explants. With each summer trial, improvements were made to the procedures. Embryogenic calli were established, but they deteriorated and were then discarded. Stimulation of lateral bud development was accomplished with Nordmann fir using seedlings maintained in the greenhouse and sprayed with a benzyladenine solution accompanied by three different excision treatments. Significant increases in bud development were obtained with all the treatments; BA-no cuts, BA-decap (apical and lateral buds clipped) and BA-stump (1/2 the height clipped) compared to the non-sprayed treatment. The c17 gene from Allepo pine was sequenced and a blast search suggests that it is similar to a family of cyclophilins, proteins which are involved in stress responses and development. Trees of six fir Christmas tree species (Nordmann, Canaan, Turkish, Fraser, Balsam and Momi) were planted on a drought-prone site in Pitt County, North Carolina. With replicated plots and irrigation and non-irrigation treatments, the five species were evaluated for their tolerance to drought by determining tree growth and survival over one growing season. Nordmann fir, Turkish fir and Momi fir had the highest survival with 40- 50% survival; Nordmann and Turkish also had the highest increase in new growth with 0.4 to 0.6 cm increase. All three of the procedures for clonal propagation are significant for multiplication of fir species in order to increase yield for the North Carolina Christmas tree industry. Because c17 identifies with a cyclophilin that responds to stress, it could be transferred to fiir species and increase their survival in eastern North Carolina. Nordmann fir field survival and height growth data in a stressful environment suggests that more evaluation of this species could be worthwhile. These studies can be used to determine the efficacy of introducing exotic Christmas tree species into eastern North Carolina.
504    Includes bibliographical references (leaves 65-69).
650  0 Clonal forestry |zNorth Carolina |zPitt County. |=^A867924
650  0 Christmas tree growing |zNorth Carolina |zPitt County. |=^A379166
650  0 Drought-tolerant plants |zNorth Carolina |zPitt County. |=^A827571
650  7 Christmas tree growing. |2fast |0(OCoLC)fst00859894
650  7 Clonal forestry. |2fast |0(OCoLC)fst00864569
650  7 Drought-tolerant plants. |2fast |0(OCoLC)fst00898447
651  7 North Carolina |zPitt County. |2fast |0(OCoLC)fst01211784 |?UNAUTHORIZED
655  7 Academic theses. |2fast |0(OCoLC)fst01726453
655  7 Academic theses. |2lcgft
655  7 Thèses et écrits académiques. |2rvmgf |0(CaQQLa)RVMGF-000001173
700 1  Newton, Ronald J., |edegree supervisor. |=^A532805
710 2  East Carolina University. |bDepartment of Biology. |=^A637467
856 40  |zAccess via ScholarShip |uhttp://hdl.handle.net/10342/11869
949    Click on web address |wasis |hjoyner101
949    Click on web address |wasis |hhsl111
994    C0 |bERE
596    1 4
998    974482