METEOROLOJİ, TOZ TAŞINIMI, ÇÖLLEŞME VE EROZYONLA MÜCADELE ÇALIŞTAYI Doç.Dr Mustafa Başaran, Yard. Doç.Dr. A.Uğur Özcan, Araş.Gör. Oğuzhan Uzun, Prof.Dr.

Slides:

Advertisements

Similar presentations

Advertisements

What is Erosion? Erosion is a gravity driven process that moves solids (sediment, soil, rock and other particles) in the natural environment or their source.

Soil Erosion Estimation TSM 352 Land and Water Management Systems.

Phosphorus Indices: an Understanding of Upper Mississippi Strategies John A. Lory, Ph.D. Division of Plant Sciences University of Missouri.

Water Saving in Rice Cultivation. Rice is a water intensive crop. Preferably it is not grown in areas with scarce groundwater resources It remains popular.

Agricultural Practices in Kansas Comparing Agricultural Practices before and after the dust storms of the 1930’s.

Cover Crops and Biofuels Implications for Soil Characteristics and Plant Development Deanna Boardman October 21, 2009.

Soil Tillage, Land Preparation, and Conservation

Conservation Effects Assessment Project (CEAP) Measuring the Environmental Benefits of Conservation Managing the Agricultural Landscape for Environmental.

Drainage is the artificial removal of water from the cropped fields within the tolerance limit of the crops grown in the area under consideration.

Runoff Estimation, and Surface Erosion and Control Ali Fares, PhD NREM 600, Evaluation of Natural Resources Management.

WATER CONSERVATION PRINCIPLES AND PRACTICES. Water conservation “ The conservation treatment meant to reduce or prevent sheet erosion while achieving.

The Nature Of Soil Ms. Scerra

Module IV: Field Preparation Lesson 1: Field Preparation for Chili Pepper Cultivation After completing one Lesson in this Module, you have learned to answer:

Soil Erosion and Conservation Developed 9/15/2000 by: Brian Matchett Sara Moyer.

Logo Certified Nutrient Management Planning7-1 Module 7: Manure Utilization By Hailin Zhang.

Surface Erosion and Control Ali Fares, PhD Watershed Hydrology, NREM662 UHM-CTAHR-NREM.

Nancy Rogel Eddie Guadarrama

WİND EROSION MEASUREMENT: Karapınar case study, Ali Uğur Özcan 1, Oğuzhan Uzun 2, Selen Saygın Deviren 3, Feras Youssef 3, Mustafa Başaran 2, Günay Erpul.

EFFECT OF TILLAGE ON PLANT GROWTH MUHAMMAD SARFARAZ 2008-ag-1574.

 PowerPoint begins with teacher-led discussion (on next slide)  Necessary materials:  PowerPoint Guide Teacher Information!

Crop Farming and Sustainability The good and the bad.

WIND EROSION Mechanisms Saltation serious if v > m 0.1 to 0.5 mm Suspension dust storms can transport dust across continents (as happened.

Agricultural Best Management Practices For Protecting Water Quality Recommended by Georgia Soil and Water Conservation Commission and approved by the EPD.

CONTROLLING EROSION ON THE FARM Soils Ag I. Objectives*  Explain how land capability classes relate to wise soil use  Describe the main vegetation methods.

Definition: Soil and water conservation engineering is the application of engineering principles to the solution of soil and water management problems.

1 RUSLE 2 Wisconsin Website da.gov/technical/cons plan/rusle Judy Derricks-WI RUSLE2 MANAGER.

Level IB: Advanced Fundamentals Seminar

PREDICTION OF SOIL LOSSES. EMPIRICAL WATER EROSION FORMULAS A= k s 0,75 L 1,5 I 1,5 (Kornev,1937) A= k s 1,49 L 1,6 (Zingg,1940) A= k s 0,8 p I 1,2 (Neal,1938)

STUBBLE AND CROP RESIDUE AS A MULCH OUTLINE  What are stubbles and crop residues?  History  Crop residues as a mulch  Stubbles as a mulch  Mechanized.

Soil Conservation. Erosion Two billion tons of U.S. soil lost annually Improved from Five billion tons in 1982 Conservation programs and voluntary conservation.

T18-1 Soil Science and Management, 4E Chapter 18 Soil Conservation.

Fertilizers and Tillage PLS 38609/23/05 Outline of topics: I. Land preparation II. Tillage systems III. Tillage implements.

Soil Quality Measurement Unit: Soil Science Lesson 7.

Soil conservation practices Contents Soil conservation practices Soil conservation practices Crop rotation Crop rotation Wind break Wind break Cover.

Lecture 2. Agricultural Pollution Control in the Baltic Sea with Special Emphasis on Manure Management Prepared by Assoc. Prof. Philip Chiverton, SLU and.

DRAINMOD APPLICATION ABE 527 Computer Models in Environmental and Natural Resources.

*UNPACKED STANDARDS: FOR TEACHER USE ONLY!* Forces deep inside Earth and at the surface produce a slow cycle that builds, destroys, and changes the rocks.

5. Terracing This practice is applied to reduce soil erosion and/or to retain run-off for moisture conservation, and consists of an earth embankment, or.

Erosion and Sedimentation Erosion – Detachment, movement and deposition of soil by water, wind, ice or gravity. Sediment – Particles derived from inorganic.

Where does soil come from?

Water Erosion “It is the detachment, transportation & deposition of soil particles by the force of water from one place to another.” “It is the movement.

Soil Conservation Agriscience II. Performance Objectives 1) Explain how the major types of soil erosion affect the environment and agricultural production.

Soil Erosion and Building up the soil

WIND ERROSION. Wind Errosion HASEEB ZAHID Mahies 2008-ag-1708 Semester: 7 th Dept:AGRONOMY.

EROSION CONTROL BY LAND MANAGMENT WHAT IS EROSION The detachment and transportation of soil particles from one place to other by running water, wind.

Sustainable Agriculture Practices. Conventional tillage  incorporates most of the previous crop’s residue into the ground  leaves the surface exposed.

SOIL DEGRADATION  When plants (trees & shrubs) are cleared from a site, soil is exposed to sunlight and the eroding effects of wind and water. Soil aeration.

Soil erosion or degradation is a natural process. It becomes a problem when human activity causes it to occur much faster than under natural conditions.

Soil Erosion. Objective 1: Explain soil erosion.  What is soil erosion?  I. Soil erosion is the process by which soil is moved.  As soil is eroded,

Wind erosion is a serious problem in many parts of the world. It is worse in arid and semiarid regions. Areas most susceptible to wind erosion on agricultural.

Integrated Nutrient Management (Nutrient Management Plan ) A Series of Lecture By Mr. Allah Dad Khan.

Definition: Soil and water conservation engineering is the application of engineering principles to the solution of soil and water management problems.

SOIL EROSION BY WIND Wind erosion processes (detachment, transportation and deposition) are similar to that of water erosion. However, soil movement by.

Land use Very suitable  land classification.

Soil Bulk Density/Moisture/Aeration

Final Evaluation Lab Practicum Take Home Assessment Formal Examination

Wind Erosion It is the detachment ,transportation and deposition of soil particles by wind. Or Removal of soil particles by the action of air and deposition.

Erosion • outline a cause of soil erosion in  NSW due to: – an agricultural process – urbanisation and identify a management strategy that prevents or.

Soil Erodibility Prof. Dr. EHSANULLAH. Soil Erodibility Prof. Dr. EHSANULLAH.

Agricultural Best Management Practices For Protecting Water Quality

13.6 Soil Profile The soil profile is a series of horizontal layers of different chemical composition, physical properties, particle size, and amount of.

Tillage; Anglo-Saxon word

Because weathering has bullied Earth since the dawn of time.

EROSION CONTROL BY CROP MANAGEMENT

Soil and Minerals

Sustainable Agriculture Practices

EROSION CONTROL BY CROP MANAGEMENT

From Bedrock to Soil Ch. 10 Section 3.

Farming Sustainability & Soil Conservation

Presentation transcript:

METEOROLOJİ, TOZ TAŞINIMI, ÇÖLLEŞME VE EROZYONLA MÜCADELE ÇALIŞTAYI Doç.Dr Mustafa Başaran, Yard. Doç.Dr. A.Uğur Özcan, Araş.Gör. Oğuzhan Uzun, Prof.Dr. Günay Erpul Erciyes Üniversitesi Seyrani Ziraat Fakültesi, Toprak Bilimi ve Bitki Besleme Bölümü, Kayseri Karatekin Üniversitesi, Orman Fakültesi, Peyzaj Mimarlığı Bölümü, Çankırı Ankara Üniversitesi Ziraat Fakültesi, Toprak Bilimi ve Bitki Besleme Bölümü, Dışkapı, Ankara

 A proces of detechment, transport and deposiation of soil particles.  Transport of upper soil and nutrients  Loss of yield potential  Internal and external hazards

 Soil losses within wind erosion side  Organic matter and nutrients losses  Degradation of soil physical properties  Yield losses

 Air quality deterioration  Road close up  İrrigation channel pluging  Accidents  Hazards on electronic devices  Fatal health hazards (Lung and skin cancer, asthma, infectious desiases)

 Treshold velocity; Initiates soil transport  Transport through creep, splash and suspention  Deposition

 Vegetation cover  Depth of loose soil material  Soil moisture content  Micro topography  Size of wind-exposured site  Soil properties (Aggregate grain size distribution, soil textural chracteristics, organic matter content)

 Create soil roughness  Create clody soil surface  Decrease wind-exposeure through wind-breaks  Provide and maintain sufficient plant cover

 Emergency plow: Plowing perpendicular to promininent wind direction to create clods and ridges to provide surface roughness and change wind profile.

 Ridge cultivation: Best efficiency at 1:4 ridge height:ridge spacing ratio (Woodruff and Siddoway, 1965). A 50% reduction in wind erosion at ridge height of 6 cm.

 Stubbles or plant residues: kg da -1 stubble or hay cover may provide soil moisture preservation and wind deflection over soil surface.

 Manure application over soil surface: Another efficient way to preserves soil moisture and wind deflection over the soil surface. Maximum benefit at ton da -1 implementation.

 Emergency irrigation: High irrigation rates may be beneficial when the wind erosion threathens the newly emerging plants. A special attention must be paid in implementation since irrigation droplets can break up the agregates. aspx?sflang=tr

 Soil surface stabilizers: Implementation of bitimunious and meloses like organic materials to improve adhesion among soil particules may prevent soil erosion. It is a high-cost implementation. Therefore, recommended for high-income crops and plants.

A soil stabilazor must:  Provide a 100% cover  Not have negative impacts of plant growth and yield.  Able either prevent erosion or redeuce the impatcs of erosion  Be easy-to-apply and low-cost (Armbrust and Lyles, 1975)

 Wind breaks: One of the most efficient means of erosion prevention. Chepil (1957) reported increasing sediment flow rate with the lenthg of wind-exposure and reaches to a maximum value at a certain wind velocity.

 Assuming a constant wind direction, a proper wind break may decrease wind eroion by 50%. Such a break may also provide a 50% erosion prevention over 20h size land area (h is the hegith of break).

Band seeding, plow paralel to counters, plant rotation are also the common method for erosion prevention. Plant strips may preserve soil surface.

 The common phylosopyh of “sperate and manage” may be efficient over bare sites. Breaks are used to seperate a large field into small plots and decrease the risk of erosion.

 Determine the tolarable soil losses for the relavent site (ton/ha/year)  Calculate potentail soil losses (ton/ha / year)  Select the method able to provide tolerable soil losses

 WEQ  RWEQ  WEPS  In-situ measurements

 Wind erosion equation summaries the principles for erosion control and prevention (Woodruff and Siddoway (1965); Where; E; soil losses (ton ha -1 yıl -1 ), I ; erosion sensitivity index, K; surface roughness, C; climate factor, L; lenthg of wind exposure V; plant cover factor.

 Basin mangement strategy for erosion-effected sites  Land use planning Regional problems creating wind erosion (agriculture, grazing, soil properties; organic material, texture, exchangable sodium percentage) Sociao-economical reasons and possible solutions Training of rural people  Basin-scale wind erosion monitoring and evaluation systems Calibrate internally proven models and equations for relavent basin Monitoring indicator parameters

Thanks for you patience