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Potassium Availability from Biotite, Muscovite, Greensand and Microcline as Determined by the Growth of Aspergillus niger PDF

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Preview Potassium Availability from Biotite, Muscovite, Greensand and Microcline as Determined by the Growth of Aspergillus niger

I PURDUE UNIVERSITY THIS IS TO CERTIFY THAT THE THESIS PREPARED UNDER MY SUPERVISION by Charles Franklin Eno_____________________________ en titled Potassium Availability from Biotite, Muscovite, Green- sand and Microcline As Determined by the Growth of Aspergillus aiger. COMPLIES WITH THE UNIVERSITY REGULATIONS ON GRADUATION THESES AND IS APPROVED BY ME AS FULFILLING THIS PART OF THE REQUIREMENTS FOR THE DEGREE OF Doctor of Philosophy - - --------"------- Professor in Charge of Thesis y- iiî.... Head of School or Department CiXyUr- txX ig-£y TO THE LIBRARIAN ■a THIS THESIS IS NOT TO BE REGARDED AS CONFIDENTIAL. PBOFBSflOB DB’ OHASfOB GBAD, SCHOOL FORM 9 POTASSIUM AVAILABILITY FROM BIOTITE, MUSCOVITE, GREENSAND AND MICROCLINE AS DETERMINED BY THE GROWTH OF ASPERGILLUS NIGER A Thesis Submitted to the Faculty of Purdue University by Charles Franklin Eno In Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy January, 1951 ProQuest Number: 27714143 All rights reserved INFORMATION TO ALL USERS The quality of this reproduction is dependent upon the quality of the copy submitted. In the unlikely event that the author did not send a complete manuscript and there are missing pages, these will be noted. Also, if material had to be removed, a note will indicate the deletion. uest ProQuest 27714143 Published by ProQuest LLC (2019). Copyright of the Dissertation is held by the Author. All rights reserved. This work is protected against unauthorized copying under Title 17, United States Code Microform Edition © ProQuest LLC. ProQuest LLC. 789 East Eisenhower Parkway P.O. Box 1346 Ann Arbor, Ml 48106 - 1346 ACKNOWLEDGEMENT Appreciation is expressed to all those who made this research and educational advancement possible for the author. The author especially wishes to express his gratitude to Dr. Herbert W. Reuszer for his direction and helpful suggestions concerning the research and aid in preparing the manuscript. To his wife, Fern, the author expresses his grate­ fulness for her encouragement and inspiration during the course of this work. i TABLE OF CONTENTS Page VITA.................................................... vi ABSTRACT................................................ viii INTRODUCTION............................................ 1 REVIEW OF LITERATURE ♦ ♦ . 3 METHODS................................................. 15 Preparation of the Minerals......................... 15 Analytical Procedures for Potassium................. 15 Total Potassium............ 15 Neutral Normal Ammonium Acetate Exchangeable Potassium. ........... 16 Normal Calcium Chloride Exchangeable Potassium... 17 Sterilization Procedures. .......... 18 Non-sterilized Mineral........................... 18 Steam Sterilized Mineral......................... 18 Dry Heat Sterilized Mineral...................... 18 Ethylene Oxide Sterilized Mineral................ 18 G-rowth Studies with A. niger........................ 19 General........................................... 19 The Effect of Sterilization upon Potassium Release as Indicated by A. niger Growth and Exchangeable Potassium. ...................... 20 Growth of A. niger at Various Levels of Potassium................ 22 Growth of A. niger on the Silt Fraction of the Minerals After Removal of the Exchangeable Potassium with Normal Calcium Chloride Solution.............. 24 Continuous Culture of A. niger on the Silt Fraction of Muscovite, Greensand and Microcline................... 24 Release of Potassium to A. niger at Various pH Levels......................................... 26 RESULTS AND DISCUSSION................................. 28 The Nature and Occurence of the Minerals........ 28 The Effect of Sterilization on Potassium Release.... 34 il G-rowth of A. nip;er at Various Levels of Potassium. .. 37 G-rowth of A. nifser on the Silt Fraction of the Minerals After Removal of the Exchangeable Potassium......................................... 62 Continuous Culture of A. niger on the Silt Fraction of Muscovite, Œre en sand and Microcline.......... 65 Release of Potassium from Minerals to A. niger at Various Initial pH Levels....................... 74 SUMMARY. ............................................. 80 APPENDIX................................................ 84 LITERATURE CITED........................................ 90 ill LISTS OF TABLES AND FIGURES List of Tables Table Page 1. Total and exchangeable potassium content of the minerals after grinding to less than 177 microns in diameter expressed as percentages... 33 2. Exchangeable potassium content of the different size fractions of the minerals expressed as percentages..................................... 33 3. Pad weights of A. niger grown on the minerals after several types of sterilization.......... 36 4. Exchangeable potassium on the minerals after several types of sterilization................. 36 5. Effect of mineral particle size and amount of potassium added in the mineral form upon the pad weight of A. niger......................... 38 6. Milligrams of potassium in the pads and filtrates and the pad weights of A. niger grown on var­ ious minerals............. 49 50 51 52 7. Effect of particle size and amount of potassium added in mineral form upon the percent potas­ sium in the mycelial pads of A. niger. 61 8. Comparison of the percent exchangeable potassium on the silt fraction of the minerals as indi­ cated by normal calcium chloride and neutral normal ammonium acetate extractions........... 62 9. Comparison of the pad weights of A. niger and the milligrams of potassium released from the silt fraction of the minerals before and after re­ moval of the exchangeable potassium........... 64 10. Milligrams of potassium in the pads and filtrates and pad weights of A. niger by 5-day intervals. 66 iv Table Page 11. Release of potassium from the silt fraction of the minerals during 65 days of incubation with A. niger as compared to uninoculated controls.. 70 12. The effect of pH on the growth of A. niger and the release of potassium from the various min­ erals .................................... 75 13. Milligrams of potassium released from the min­ erals by ammonium acetate extraction at three pH levels....................................... 79 List of Figures Figure Page 1. Pad weights of A. niger at various levels of potassium supplied by the sand, silt and clay fractions of microcline........................ 40 2. Pad weights of A. niger at various levels of potassium supplied by the sand, silt and clay fractions of greensand......................... 41 3. Pad weights of A. niger at various levels of potassium supplied by the sand, silt and clay fractions of muscovite.............. 42 4. Pad weights of A. niger at various levels of potassium supplied by the sand, silt and clay fractions of biotite........................... 43 5. Weight of pads produced by A. niger on the sand fraction of the minerals at various levels of total potassium................................ 45 6. Weight of pads produced by A. niger on the silt fraction of the minerals at various levels of total potassium.............. 46 7. Weight of pads produced by A. niger on the clay fraction of the minerals at various levels of total potassium............. 47 V Figure Page 8. Distribution of the potassium from the cultures of A. niger and controls on biotite........... 53 9. Distribution of the potassium from the cultures of A» niger and controls on muscovite........ 54 10. Distribution of the potassium from the cultures - of A. niger and controls on greensand.......... 55 11. Distribution of the potassium from the cultures of A. niger and controls on microcline......... 55 12. Pad weights of A. niger as related to the final pH of the culture filtrates.................. 59 15. Pad weights of A. niger at thirteen successive five-day intervals of growth on the silt frac­ tion of muscovite, greensand and microcline.... 67 14. The effect of pH on the release of potassium by A. niger growth and extraction by the nutrient solution and ammonium acetate................ ?8 List of Appendix Figures Figure Page I. Growth of A. niger on potassium supplied by the sand, silt and clay fractions of biotite...... 85 II. Growth of A. niger on potassium supplied by the sand, silt and clay fractions of muscovite 86 III. Growth of A. niger on potassium supplied by the sand, silt and clay fractions of greensand 87 IV. Growth of A# niger on potassium supplied by the sand, silt and clay fractions of microcline.,.. 88 V. Growth of A. niger on the silt fraction of the minerals and on the nutrient solution only at three pH levels.............................. 89

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