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Morphological and anatomical responses of selected coastal salt PDF

200 Pages·2013·10.35 MB·English
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Preview Morphological and anatomical responses of selected coastal salt

AN ABSTRACT OF THE THESIS OF Denise M. Seliskar for the degree of Master of Science in Botany and Plant Pathology presented on June 30, 1980. Title: Morphological and anatomical responses of selected coastal salt marsh lants to spin moisture. Redacted for privacy Abstract approved: Fred R. Rick on of Deschampsia Morphological and anatomical characteristics cespitosa, Distichlis spicata, Grindelia integrifolia, Jaumea studied from the marsh carnosa and Salicornia virginica were fringing Netarts Bay, Oregon. Significant morphological differ- between upper and lower distribu- ences were found along transects of 40 m at the most." tional limits of each species, a distance portion of the marsh except Plants were taller in the upper, drier, for D. spicata, where the reverse was true. In certain cases stem branching, amount of diameter, leaf width, internode length, features found to be different flowering and stem density were among Lignification of vas- along the transects of the various species. stems of D. spicata from its cular bundle sheaths was greatest in Larger vascular bundles of J. carnosa, more sclerenchma upper zone. in S. virginica were found to in G. integrifolia and less aerenchyma distributional areas of be characteristic of plants from the upper these species. With vertical and lateral transplants of the five species it was concluded that these species respond plastically in their morphology and anatomy to the environment. In all cases the transplanted plants took on the morphological and anatomical characteristics of the sur- rounding plants. Since the various morphological forms are not gene- tically fixed they are not considered to be ecotypes. D. cespitosa; D. spicata, G. integrifolia and S. virginica were studied under three soil moisture treatments (saturated (SAT), field capacity (FC) and near wilting point (DRY)) in a controlled greenhouse experiment. Aerenchyma formation in S. virginica and sclerenchyma formation in G. integrifolia were affected by soil moisture in the greenhouse similarly to the way they were along the field transects. Lignification of vascular bundle sheaths of D. spicata did not appear to be controlled by soil moisture, Morphological characteristics of S. virginica in the greenhouse in relation to soil moisture were sim, ilar to those found in the field. Variability of characteristics of the other species in the field did not correlate so well with green- house soil moisture studies indicating that other environmental fac- tors are influential in effecting morphology. Above and helowground biomass of each species was measured in the greenhouse. Maximum biomass occurred under FC conditions in both cases for the four species. In the SAT treatment greatest root bio- mass was found in the upper 10 cm of soil for each species. Root: affected by shoot ratios of D. cespitosa and S. virginica were not changes in soil moisture while that of D. spicata was lowest in the in the DRY treat- SAT treatment and that of G.integrifolia was lowest ment. Morphological and Anatomical Responses of Selected Coastal Salt Marsh Plants to Soil Moisture by Denise Martha Seliskar A THESIS submitted. to Oregon State University in partial fulfillment of the requirements for the degree of Master of Science Completed June 30, 1980 Commencement June 1981 APPROVED: Redacted for privacy Associate Professor of botany and Plant Pathology in charge of major Redacted for privacy Department Chairman Botany and Plant Pathology Redacted for privacy Dean of Graduate School Date thesis is presented June 30, 1980 Typed by Rae Clark for Denise Martha Seliskar ACKNOWLEDGEMENTS I would like to thank Fred Rickson, Bob Frenkel and Hal Kibby for their advice throughout this research effort and Dave McIntire for also reviewing the thesis. Appreciation is extended to Dennis De Courcey, Wayne Moyer and especially Katherine Skirvin for their help in the execution of the project. I would like to thank Mel Carriker for the use of his laboratory at the University of Delaware. Thanks also to Jim Hay for help in the greenhouse, Pam Palinsky for drafting, and Rae Clark for the typing of the thesis. My special thanks to Jack Gallagher, a very understanding and patient husband. This study was supported by the U.S. Environmental Protection Agency Grent No. R806013010 administered through the Corvallis Environmental Research Laboratory. TABLE OF CONTENTS I. Introduction 1 Statement of the Problem 1 Temperature, Light and Wind 5 Salinity 6 Mineral Nutrition 8 Drought 9 Waterlogging 11 Purpose 15 Approach 15 II. Transects 18 Introduction 18 Materials and Methods 19 Results and Discussion 27 Upper vs Lower Distributional Limit 27 Differences Along the Transects 41 Soil Moisture 60 Soil Chemical Properties 65 Conclusions 75 III. Transplants 76 Introduction 76 Materials and Methods 77 Results and Discussion 80 Deschampsia cespitosa 80 Distichlis spicata 85 Grindelia integrifolia 33 Jaumea carnosa 94 SiTicoriiTTUFginica 99 Conclusions 113 IV. Greenhouse 114 Introduction 114 Materials and Methods..,............ . . ....... ... 115 Results and Discussion 122 Morphology and Anatomy........... ..... , ..... . . . 122 Aerial Biomass 133 Underground Biomass and Distribution 143 Root to Shoot Ratios 143 Conclusions 156 V. Summary 157 . Recommendations for Future 159 VI, Literature Cited.......... ......... ......,........ 162 . VII. Appendix., ........ . ....... ..... .ft 170 LIST OF FIGURES Figure Page 1. Schematic representation of the distribution of the five selected species 19 2. Map of the Netarts Bay Area 23 3. Stem cross sections of Distichlis spicata from its upper and lower distributional limits 37 4. Stem cross sections of Grindelia integrifolia from its upper and lower distributional limits 39 5. Stem cross sections of Jaumea carnosa from its upper and lower distributional limits 40 6. Stem cross sections of Salicornia virginica from its upper and lower distributional limits 42 7. Stem cross sections of Distichlis spicata along transect 58 8. Stem cross sections of Grindelia integrifolia along transect 59 9. Stem cross sections of Jaumea carnosa along transect 61 10. Stem cross sections of Salicornia virginica along transect 62 Soil moisture tension for the north sampling '11. area, May-November, 1979 63 12. 1979 precipitation for Tillamook, Oregon 66 13. 1979 high tides at Netarts Bay, Oregon 67 14. Design of transplant experiment for Jaumea carnosa, Distichlis spicata and Salicornia virginica 78 15. Soil moisture tension of upper vs lower Deschampsia cesaitosa transplants 81 16. Soil moisture tension of upper vs lower Distichlis spicata transplants 86 LIST OF FIGURES (continued) Figure Page 17. Stem cross sections of transplanted Distichlis spicata 91 18. Soil moisture tension of upper vs lower Grindelia integrifolia transplants 92 19. Stem cross sections of transplanted Grindelia integrifolia 97 20. Soil moisture tension of upper vs lower Jaumea carnosa transplants 98 21. Stem cross sections of transplanted Jaumea carnosa 104 22. Soil moisture tension of upper vs lower Salicornia virginica transplants 105 23. Stem cross sections of transplanted Salicornia virginica.. 110 24. Design of field capacity pot 117 25. Soil moisture tension curve for greenhouse river sand 119 26. Stem cross sections of Distichlis spicata from the greenhouse experiment 128 27. Stem cross sections of Grindelia integrifolia from the greenhouse experiment.. 132 Stem cross sections of Salicornia virginica 28. from the greenhouse experiment 137 LIST OF TABLES Table Page 1. Sampling points along transects with zero being the lower limit of species distribution 22 2. Morphological characteristics measured for each species 24 3. Deschampsia cespitosa. Morphological measurements of plants from the upper and lower distributional limits 28 4. Distichlis spicata. Morphological measurements of plants from the upper and lower distributional limits 29 5. Grindelia integrifolia. Morphological measurements of plants from the upper and lower distributional limits 30 6. Jaumea carnosa. Morphological measurements of plants from the upper and lower distributional limits 33 7. Salicornia virginica. Morphological measurements of plants from the upper and lower distributional limits 34 8. Deschampsia cespitosa. Morphological measure- ments of plants along transect 43 9. Deschampsia cespitosa. SNK range test of significant variables . 45 10. Elevational data for transect points 47 11. Distichlis spicata. Morphological measurements of plants along transect 48 12. Distichlis spicata. SNK range test of signifi- cant variables ...... ......... ...... .. ..... 49 13. Grindelia integrifolia. Morphological measurements of plants along transect 51 14. Grindelia SNK range test of si 52 tilifTc an t variables LIST OF TABLES (continued) Page Table 15. Jaumea carnosa. Morphological measurements 53 of plants along transect 16. Jaumea carnosa. SNK range test of significant 54 variables 17. Salicornia virginica. Morphological measure- 55 ments of plants along transect 18. Salicornia virginica. SNK range test of 56 significant variables 19. Soil chemical properties along the Deschampsia 68 cespitosa transect. 20. Soil chemical properties along the Distichlis 69 spicata transect 21. Soil chemical properties along the Grindelia integrifolia transect 70 22. Soil chemical properties along the Jaumea carnosa transect .. 71 23. Soil chemical properties along the Salicornia- virginica transect 72 24. Elevational Data for Transplants 82 25. Deschampsia cespitosa Transplants - morphological 83 measurements 26. Deschampsia cespitosa Transplants. SNK range 84 test of significant variables 27. Distichlis spicata. Chemical properties of 87 transplanted soil 28. Distichlis spicata Transplants - morphological 89 measurements 29. Distichlis spicata Transplants. SNK range test 90 of significant variables........... ....... . ...... 30. Grindelia integrifolia. Chen'ica1 properties of transplanted soil.... ....... .. ........ ...... 93

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Morphological characteristics measured for each species. 24. 3. Deschampsia cespitosa. Morphological measurements of plants from the upper and .. areas such as the New Jersey shore, large sums of money are at stake' .. procedure employing safranin, fast green and gold orange (Rickson,.
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