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Soil aeration and crop growth in response to excess water PDF

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Iowa State University Capstones, Theses and Retrospective Theses and Dissertations Dissertations 1989 Soil aeration and crop growth in response to excess water Saqib Mukhtar Iowa State University Follow this and additional works at:https://lib.dr.iastate.edu/rtd Part of theAgriculture Commons, and theBioresource and Agricultural Engineering Commons Recommended Citation Mukhtar, Saqib, "Soil aeration and crop growth in response to excess water " (1989).Retrospective Theses and Dissertations. 9229. https://lib.dr.iastate.edu/rtd/9229 This Dissertation is brought to you for free and open access by the Iowa State University Capstones, Theses and Dissertations at Iowa State University Digital Repository. It has been accepted for inclusion in Retrospective Theses and Dissertations by an authorized administrator of Iowa State University Digital Repository. For more information, please [email protected]. INFORMATION TO USERS The most advanced technology has been used to photo­ graph and reproduce this manuscript from the microfilm master. UMI films the text directly from the original or copy submitted. Thus, some thesis and dissertation copies are in typewriter face, while others may be from any type of computer printer. The quality of this reproduction is dependent upon the quality of the copy submitted. Broken or indistinct print, colored or poor quality illustrations and photographs, print bleedthrough, substandard margins, and improper alignment can adversely affect reproduction. In the unlikely event that the author did not send UMI a complete manuscript and there are missing pages, these will be noted. Also, if unauthorized copyright material had to be removed, a note will indicate the deletion. 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University Microfilms International A Bell & Howell Information Company 300 North Zeeb Road, Ann Arbor, Ml 48106-1346 USA 313/761-4700 800/521-0600 Order Number 8920174 Soil aeration and crop growth in response to excess water Mukhtar, Saqib, Ph.D. Iowa State University, 1989 U M I 300 N. ZeebRd. Ann Arbor, MI 48106 Soil aeration and crop growth in response to excess water by Saqib Mukhtar A Dissertation Submitted to the Graduate Faculty in Partial Fulfillment of the Requirements for the Degree of DOCTOR OF PHILOSOPHY Major: Agricultural Engineering Approved: Signature was redacted for privacy. harge of Major Work Signature was redacted for privacy. For the Major (©èpartment Signature was redacted for privacy. For^the Graduate College Iowa State University Ames, Iowa 1989 ii TABLE OF CONTENTS Page GENERAL INTRODUCTION 1 OBJECTIVES 5 LITERATURE REVIEW 6 Soil Aeration 6 Indicators of Soil Aeration Status 10 Soil Atmosphere Sampling for Og Concentration 12 ODR Determination 16 Measuring Soil Eh 20 Critical Levels of Og Concentration, ODR, and Eh for 22 Plant growth Critical Og Concentration 22 Critical ODR 24 Critical Eh 26 Crop Response to Excess Soil Water 28 PAPER I. SOIL ATMOSPHERE ACCESS-CHAMBER AND 39 ANALYTICAL ASSEMBLY TO MONITOR SOIL AERATION INTRODUCTION 40 MATERIALS AND METHODS 43 Atmosphere-access Chamber 43 Dual-Action Syringe Sampling Assembly _ 45 Sample Analysis Reservoir 45 TESTING PROCEDURE 50 RESULTS AND DISCUSSION 55 CONCLUSIONS 61 i i i PAPER II. SOIL AERATION AS AFFECTED BY EXCESS 62 WATER INTRODUCTION 63 MATERIALS AND METHODS 66 RESULTS AND DISCUSSION 72 Soil Aeration Monitored during the Growing Season 72 Effect of Water Table Raising and Lowering on Soil 80 Aeration Relationships between Og Concentration, Eh and ODR 88 Og Concentration versus Eh 88 Og Concentration versus ODR 92 ODR versus Eh 92 Relationship between Og Concentration, Eh, ODR and 96 the Air-Filled Pore Spaces in Soil CONCLUSIONS 111 PAPER III. CORN GROWTH AS AFFECTED BY EXCESS 112 SOIL WATER INTRODUCTION 113 MATERIALS AND METHODS 116 Experimental Site 116 Construction of Isolated Field Plots 118 Excess Wetness Treatments to Determine CS Factors 121 Measurements of Plant-Growth Parameters 121 Stress-Day Index (SDI) Model 123 Other Measurements 124 RESULTS AND DISCUSSION 126 Rainfall and Temperatures 126 Effect of Controlled Flooding on Plant-Growth 126 Parameters and Grain Yield i V Crop Susceptibility (CS) and Normalized Crop 134 Susceptibility (NCS> Factors Stress-Day Index (SDI) Model 137 CONCLUSIONS 140 RECOMMENDATIONS FOR FUTURE WORK 141 GENERAL SUMMARY 144 LITERATURE CITED ' 150 ACKNOWLEDGEMENTS 162 APPENDIX A. COUNT RATIOS AND CORRESPONDING MOISTURE 164 CONTENTS FOR THE CALIBRATION CURVE APPENDIX B. SOIL AERATION DATA AND PLOTS FOR THE 1987 167 GROWING SEASON APPENDIX C. CORN GROWTH PARAMETERS AND GRAIN YIELD DATA 219 1 GENERAL INTRODUCTION Almost one hundred years before the discovery of oxygen <0g), the importance of soil air for plant growth was known to the experimenters of the 17th century. Clements (1921) traced the works of Mayow in 1668 and Huygens and Papin in 1674 who showed that air was needed by plants. When soils with poor internal drainage characteristics receive excessive rainfall, they become increasingly wet and consequently, very high water tables or even temporary flooding conditions can exist. Williamson and Kriz (1970) explained that water itself does not deter the plant root growth and development as shown by the fact that most plants can grow in well aerated soil solutions. But it is the Qg deficiency in the root zone that causes injury to the roots of most plants if the soils they grow in are allowed to remain excessively wet. An adequate soil-water-air environment is essential for good plant growth and for the enhanced agricultural use of the land. Excessive soil water conditions may occur at any time during the crop growing season, and therefore, an assessment of the soil aeration status under flooded (or very high soil moisture) and unflooded conditions during the cropping season may help us understand in what ways poor soil aeration can inhibit crop growth.

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growth and development as shown by the fact that most plants can grow in well aerated soil solutions. voltmeter could be used to determine soil Og concentration in situ. But their use could be limited due to . roots (Patrick, 1977; Carter et al., 1984), but it does not include the influence of the
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