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estimation of water requirement in maize using cropwat model master of science in agriculture PDF

178 Pages·2016·15.49 MB·English
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Preview estimation of water requirement in maize using cropwat model master of science in agriculture

ESTIMATION OF WATER REQUIREMENT IN MAIZE USING CROPWAT MODEL By A. AJAY KUMAR B.Sc. (Ag.) THESIS SUBMITTED TO ACHARYA N. G. RANGA AGRICULTURAL UNIVERSITY IN PARTIAL FULFILMENT OF THE REQUIREMENTS FOR THE AWARD OF THE DEGREE OF MASTER OF SCIENCE IN AGRICULTURE (AGRONOMY) DEPARTMENT OF AGRONOMY COLLEGE OF AGRICULTURE ACHARYA N. G. RANGA AGRICULTURAL UNIVERSITY RAJENDRANAGAR, HYDERABAD-500 030. FEBRUARY, 2008 CERTIFICATE Mr. A. AJAY KUMAR has satisfactorily prosecuted the course of research and that the thesis entitled “ESTIMATION OF WATER REQUIREMENT IN MAIZE USING CROPWAT MODEL” submitted is the result of original research work and is of sufficiently high standard to warrant its presentation to the examination. I also certify that the thesis or part there of has not been previously submitted by him for a degree of any University. Date: (Dr. BABY AKULA) Place: Rajendranagar, Chairman of the Advisory Committee Hyderabad . . CERTIFICATE This is to certify that the thesis entitled “ESTIMATION OF WATER REQUIREMENT IN MAIZE USING CROPWAT MODEL” submitted in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE IN AGRICULTURE of the Acharya N. G. Ranga Agricultural University, Hyderabad, is a record of the bonafide research work carried out by A. AJAY KUMAR under my guidance and supervision. The subject of the thesis has been approved by the Student's Advisory Committee. No part of the thesis has been submitted for any other degree or diploma. The published part has been fully acknowledged. All assistance and help received during the course of the investigation has been duly acknowledged by the author of the thesis. (Dr. BABY AKULA) (Chairman of the Advisory Committee) Thesis approved by the Student's Advisory Committee Chairman ( Dr. BABY AKULA ) Associate Professor Department of Agronomy College of Agriculture Rajendranagar, Hyderabad-500 030. Member ( Dr. V. RAJA ) Professor & IFFCO Chair Department of Agronomy College of Agriculture Rajendranagar, Hyderabad-500 030. Member ( Dr. A. MANI ) Associate Professor Department of Agricultural Engineering College of Agriculture Rajendranagar, Hyderabad-500 030. DECLARATION I, A. AJAY KUMAR hereby declare that the thesis entitled “ESTIMATION OF WATER REQUIREMENT IN MAIZE USING CROPWAT MODEL” submitted to the Acharya N.G. Ranga Agricultural University for the degree of MASTER OF SCIENCE IN AGRICULTURE is the result of original research work done by me. I also declare that any material contained in the thesis has not been published earlier in any manner. Date: (A. AJAY KUMAR) Place: Rajendranagar, Hyderabad CONTENTS CHAPTER NO TITLE PAGE NO I INTRODUCTION 1 - 3 II REVIEW OF LITERATURE 4 - 21 III MATERIAL AND METHODS 22 - 62 IV RESULTS 63 - 98 V DISCUSSION 99 - 112 VI SUMMARY 113 - 119 LITERATURE CITED 120 - 129 APPENDICES 130 - 133 LIST OF ILLUSTRATIONS FIGURE PAGE TITLE NO. NO. 1 Weekly meteorological data during crop growth period 23 2. Layout plan of the experimental plot 29 3. Layout of laterals in drip irrigation system 30 4 Dry matter production g plant-1of maize as influenced by 68 different drip irrigation treatments at different phonological phases 5 Grain yield of maize as influenced by drip irrigation 77 treatments 6 Irrigation water use efficiency (IWUE, Kg ha-1 mm-1) in 82 maize as influenced by drip irrigation treatments 7 Actual evapotranspiration (mm) in maize as influenced by 85 drip irrigation treatments at different crop growth stages 8 Crop coefficient of maize based on ETo estimated by Pan 89 Evaporation method 9 Comparison of CROPWAT simulated grain yield with that 94 observed in maize, rabi 2006-07 10 Comparison of CROPWAT simulated irrigation water 98 requirement with that measured in Maize, rabi 2006-07 LIST OF TABLES TABLE PAGE TITLE NO. NO. 1 Physico-chemical properties of the experimental site 25 2 Moisture retention characters of the experimental soil 26 3 Water quality parameters 26, 27 4 Previous cropping history of the experimental site 27 5 Initial and final plant population (%) as influenced by drip 64 irrigation treatments 6 Plant height (cm) of maize as influenced by drip irrigation 65 treatments at different phenological phases 7 Dry-matter production (g plant-1) of maize as influenced by drip 67 irrigation treatments at different phenological phases 8 Rooting depth (cm) of maize as influenced by drip irrigation 70 treatments at different phenological phases 9 Number of days to 50 % tasseling, 50% silking and days to 72 physiological maturity of maize as influenced by drip irrigation treatments 10 Ear length, girth, weight and 100-grain weight of maize as 74 influenced by drip irrigation treatments 11 Grain yield, stover yield, harvest index and shelling percentage of 76 maize as influenced by drip irrigation treatments 12 Irrigation water applied (mm) in maize through drip irrigation 80 treatments 13 Irrigation Water Use Efficiency (IWUE, Kg ha-1mm-1) in maize 81 as influenced by drip irrigation treatment 14 Evapotranspiration (mm) in maize at different crop growth stages 84 as influenced by drip irrigation treatments 15 Crop coefficients (Kc) of maize as influenced by drip irrigation 87 treatments at different crop growth stages TABLE PAGE TITLE NO. NO. 16 Observed and simulated grain yield of maize as influenced 91 by drip irrigation treatments 17 Test criteria in evaluation of CROPWAT with respect to 93 maize yield (kg ha-1) 18 Error per cent by CROPWAT simulated grain yield from 93 observed in maize rabi 2006-07 19 Measured and simulated Irrigation Water Requirement 96 (IWR) of maize as influenced by drip irrigation treatments 20 Test criteria in evaluation of CROPWAT with respect to 97 Irrigation Water Requirement (IWR, mm) 21 Error per cent by CROPWAT simulated Irrigation Water 97 Requirement (IWR) from observed in maize rabi 2006-07 LIST OF PLATES PLATE PAGE TITLE NO. NO. 1 Layout of laterals on the experimental plot 134 2 Measuring of dripper discharge 134 3 Overall view of the experimental plot 135 4 Response of maize to different drip irrigation schedules 136 4a Response of maize to different drip irrigation schedules 137 LIST OF APPENDICES PAGE APPENDIX TITLE NO. A Weekly meteorological data during crop growth period 130 B Daily evaporation (mm) after imposing drip irrigation 131, 132 treatments (2006-07) C Calendar of operations 133 ACKNOWLEDGEMENTS It is by the unfathomable grace and benediction of the almighty, I have been able to bring into light and present this piece of work uninterruptedly, for which I am eternally indebted to him. From the core of my heart, I express my deep sense of gratitude and love to my beloved parents; Sri A. GOPAL and Sri A. RADAMMA, ever lovable brother, NAGABHISHEK and all my family members and relatives whose everlasting love and source of inspiration throughout my career without whose loving support, I would not be what I am today. I take this opportunity to express my deep sense of gratitude and reverence to my Major Advisor Dr. BABY AKULA, Associate Professor, Department of Agronomy, College of Agriculture, Rajendranagar. She has been of immense help to me with her constant inspiration and learned counsel in meticulous planning and execution of my experimental work. I am indebted to her for her affectionate guidance during the drafting and editing of this thesis. I deem it my privilege to extol my profound etiquitte and sincere feelings of gratitude to an illustrious and distinguished professor & IFFCO Chair Dr. V. RAJA, Department of Agronomy, College of Agriculture, Rajendranagar and member of my Advisory Committee for his grace and vibrant scientific temper, which left an everlasting impression on me. I am greatly beholden beyond words to express my graceful thanks and I am splendidly indebted to Dr. A. MANI, Assistant Professor, Department of Agricultural Engeeniring, College of Agriculture, Rajendranagar, Hyderabad and member of my Advisory Committee for her esteemed suggestions, scientific proficiency, constant encouragement and indebted help during the course of study. I extend my sincere thanks to Dr. M. SREENIVASA RAJU, Professor and Head, Department of Agronomy, College of Agriculture, Rajendranagar, for his timely help, persistent encouragement and facilities extended during the course of my study. With immense pleasure and deep respect, I express my profound sense of gratitude, indebtedness and heartful thanks to my revered teacher, Dr. SHAIK MOHAMMAD,

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IN AGRICULTURE of the Acharya N. G. Ranga Agricultural University,. Hyderabad Layout of laterals in drip irrigation system. 30. 4 Plant height (cm) of maize as influenced by drip irrigation . experiment was laid out in a randomized block design with 7 treatments viz., drip Food and Agricultural.
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