DOCSLIB.ORG

Drills and Cultivators Drills ’N’ Hoes

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Drills and Cultivators Drills ’N’ Hoes With cost pressures“ and herbicide resistance increasing, conventional growers are showing an interest in inter-row kit.” LAMMA preview Drills and cultivators Drills ’n’ hoes From direct fertiliser drills to Väderstad available on the 12 and 18 row Tempo L interrow hoes, there was a After launching on the market in November, models and is based on the same high Väderstad will be showcasing its new Carrier capacity Fenix III metering system as the huge array of cultivation kit XL 425-625 cultivator –– fitted with the 5000-litre hopper, delivering up to 350kg/ha launched at last month’s CrossCutter Disc –– at the NEC next month. fertiliser at 15km/h planting speed, says Designed for conserving moisture in the the firm. Agritechnica. But what’s seedbed, the cultivator has the ability to relevant to the UK market? work at ultra-shallow depths of only 3cm, as Pöttinger well as down to 5cm, across the full working Though visitors won’t be able to see it in the And what can farmers expect width of the machine. According to flesh at LAMMA, the Terrasem Fertiliser Pro to see on display at next Väderstad, this enables efficient mixing mulch seed drill (with direct fertilisation) is of crop residues within the topsoil and the next big thing from Pöttinger. month’s LAMMA event? encourages an early weed chit. One of the real selling points of this piece CPM finds out more. “A shallow stale seedbed increases of kit is that the simultaneous use of tool the number of seeds germinating, and combinations (for example, front board with By Charlotte Cunningham encourages earlier emergence,” says UK tillage discs) in combination with applying marketing manager, Andy Gamble. “This fertiliser while drilling avoids multiple passes then means the following crop can either be –– a particularly important consideration for drilled earlier or with the extra time created, many growers as pressure builds on the With an increasing focus on preserving used to prepare an even better seedbed.” industry to work towards reducing emissions and getting the best from our soils, there’s Also new and set to be on display at and cutting costs. never been a more important time for LAMMA is the latest addition to Väderstad’s So how exactly does it work? “Seedbed drills and cultivation kit. But regardless Tempo L range –– the Tempo L 8 –– which is preparation is taken care of by the compact of whether you’re looking for something claimed to combine high-speed precision disc harrow or low disturbance wave disc that’s deep-working or fast-moving, drilling with high capacity output of both harrow,” explains the firm. “The fertiliser is chances are there’s something to suit seed and fertiliser. then placed by the Fertilizer Pro coulter in you on the market. As suggested in the name, the Tempo a double-shoot row between every second To give CPM readers a flavour of what L 8 has eight row units, boasts a 3000-litre seed row.” to expect in the drill and cultivation fertiliser hopper, and is available in row The placement depth of fertiliser can be department at next month’s LAMMA event spacing options from 700-800mm, making adjusted hydraulically within a range of (7-8 January), we’ve picked out some of the it a fairly versatile tool. 10cm independently of cultivating and key developments. The new 3000-litre fertiliser hopper is also sowing depth, adds Pöttinger. “The surface 42 crop production magazine december 2019 LAMMA preview is then consolidated across the whole area by the packer before the seed is planted. “The Fertilizer Pro coulter then uses precision techniques to place the fertiliser next to the seed. Not only does this save fertiliser and minimise unproductive losses, it also promotes faster development of the root mass and contributes long-term to optimum yield.” Vredo The Terrasem Fertiliser Pro mulch seed drill (with direct fertilisation) is the next big thing from Pöttinger. Netherlands-based manufacturer, Vredo, are expected to showcase a number of feature that allows farmers to sow arable comprises a pair of cutting discs with an innovations at LAMMA, after launching in crops directly onto stubble, without any inter-row distance of 7.5cm. Hannover last month. tillage, on 15cm rows. To sow arable crops deeper, every Among them is the Vredo overseeder Now available on the Agri Twin and second pair of discs can be pulled up high which now boasts a new crop drill system Agri Air series, the base of the machine hydraulically. “This way a sowing distance L Dance of the inter-row cultivators With questions over the future of glyphosate farmers who need an effective, reliable, low cost, still looming in the air, it’s fair to say that the mechanical method of removing weeds from their industry is seriously beginning to consider the crops, which is becoming increasingly important, implementation of other solutions, should we for several reasons. lose the chemical control. “In recent years numerous agrochemicals, With that in mind, there’s been an increasing including herbicides, have been lost to more number of manufacturers adding inter-row kit to stringent legislation, some of those which remain their armoury. are becoming more costly and less effective, while an increasing number of farms are turning to Claydon organic production where such products cannot Among them is Claydon, set to debut a 6m be used.” Claydon’s TerraBlade Inter-row has been version of its new TerraBlade heavy duty inter-row designed to help eliminate weeds alongside hoe at the NEC next month. Opico herbicides in both conventional and organic Claimed by Claydon to be “simple, reliable and Also making waves in the interrow market is arable systems. economically priced” the TerraBlade Inter-row has Opico, who have launched a complete range of been designed to help eliminate weeds alongside Hatzenbichler inter-row cultivators for UK farmers. herbicides in a conventional arable system as well Austrian firm, Hatzenbichler, is well known for as providing a robust solution for organic growers. its comb weeders, grass harrows and seeders, Launched as a result of farmer demand for the but although the manufacturer has been building existing TerraBlade range, the new 6m, 20 tine inter-row cultivators for 65 years, it’s only recently and 8m, 26-tine heavy duty versions will sit that precision guidance technology has made them alongside the four other pre-existing standard a realistic option for mainstream arable production. models and have been optimised to perform even “We’ve traditionally sold most of our comb on heavy soils. harrows to organic producers wanting to control Carried on the tractor’s front linkage and and weeds in broad-acre combinable crops and Opico have launched a complete range of steered manually, the TerraBlade incorporates a vegetable producers looking to reduce herbicide Hatzenbichler inter-row cultivators for UK farmers. heavy-duty box section steel frame with a fixed usage,” explains Opico managing director centre section and two vertically folding wings. James Woolway. “However over recent years, Tines can be adjusted to suit any row width and with cost pressures and herbicide resistance slicing through weed roots leaving unwanted the fine blades mean the TerraBlade can work developing more and more, conventional growers plants to die on the surface. effectively up to 30mm deep. are showing an interest.” There’s a choice of points and tines which need In terms of power requirements, the 8m model With working widths stretching from 3m right to be matched to the job in hand, for example, requires a minimum 80hp tractor and has an up to 18m, the new Hatzenbichler cultivator is A-shares mounted on S-tines for deeper work, or optimum working speed of 6km/h, providing an likely to provide a solution for a variety of cropping duckfoot shares and L-blades mounted on the average work output of 4ha per hour, according options and row spacings, says Opico. Hatzenbicher Vibro-tine. On top of that there’s a to Claydon. The principle for all versions remains the whole raft of additional options icluding plastic “The TerraBlade provides a valuable additional same –– tines mounted on parallelograms with finger wheels that flick out weeds in the crop row weapon in the agricultural industry’s weed control individual depth wheels running between the crop and crop protectors that shield delicate plants armoury,” says Jeff Claydon. “We developed it for rows –– which work to cultivate the soil surface by from soil throw. crop production magazine december 2019 43 LAMMA preview MaxiDrill range, Sky Agriculture are set to announce a whole host of updates at LAMMA 2020. The new 20 Series updates to the EasyDrill and MaxiDrill include a redesigned electronics package with blockage sensing, individual row shut off and ISObus control as well as a second “Pro-Hopper” allowing four products to be individually metered and distributed at once. Building on its existing EasyDrill and MaxiDrill With grain and fertiliser main tanks as range, Sky Agriculture are set to announce a standard and the possibility of adding one Designed for conserving moisture in the seedbed, whole host of updates at LAMMA 2020. or two smaller Pro-Hoppers, the range of Väderstad’s cultivator has the ability to work at possible applications the machine can be ultra-shallow depths of only 3cm. L of 15cm is being created,” says the firm. employed for is effectively extended. “The “This system doesn’t cultivate the soil, operator can now place seed, fertiliser, The first being the disc coulter and the instead, it only slits it, meaning less machine companion crops and plant protection second, a placement tube with three power is needed.” products accurately in one pass,” says the different positions to allow depth to be The overseeder is also suitable for firm.
Load more

Recommended publications
  • Secondary Tillage Implements
    SECONDARY TILLAGE Tillage operations following primary tillage which are performed to create proper soil tilth for seeding and planting are secondary tillage. These are lighter and finer operations, performed on the soil after primary tillage operations. Secondary tillage consists of conditioning the soil to meet the different tillage objectives of the farm. These operations consume less power per unit area compared to primary tillage operations. Secondary tillage implements may be tractor drawn or bullock drawn implements. 1. Harrow Harrow is a secondary tillage implement that cuts the soil to a shallow depth for smoothening and pulverizing the soil as well as to cut the weeds and to mix the materials with the soil. There are several types of harrow used in India such as disc harrow, spike tooth harrow, spring tooth harrow, acme harrow, patela, triangular harrow, bade harrow, guntaka and reciprocating power harrow. 1.1. Disc harrow It is a harrow, which performs the harrowing operation by means of a set, or a number of sets of rotating slat discs, each set being mounted on a common shaft. Disc harrow is found very suitable for hard ground, full of stalks and grasses. It cuts the lumps of soil, clods and roots. Disc are mounted on one, two or more axles which may be set at a variable angle to the line of motion. As the harrow is pulled ahead, the discs rotate on the ground. Depending upon the disc arrangements, disc harrows are divided into two classes a) Single action and b) Double action. Single action disc harrow It is a harrow with two gangs placed end to end, which throw the soil in opposite directions.
    [Show full text]
  • The Guide to Good Black Grass Stale Seedbeds
    The Guide To Good Black Grass Stale Seedbeds An essential checklist to maximise the agronomic benefits FOREWORD Independent Soil Advisor by Philip Wright www.wrightresolutions.co.uk/id2 Stale Seedbeds : The importance of soil structure The soil on your farm is your most important asset, providing the foundation for yield and profit. Yield losses attributable to compaction range from 15% to 50% or greater. These losses can be the difference between profit and loss for many crops, so avoiding and correcting compaction is key. Maintaining good soil structure is vital; key indicators of good soil structure include: Porosity - to allow easy passage of roots, plus for good air and water storage or movement; Stable aggregates - to cope with heavy rain, and to resist breakdown or loss by erosion; Good biology - having adequate levels of organic matter, aerobic conditions and ‘soil life’ including good earthworm numbers; 2 THE GUIDE TO GOOD BLACK GRASS STALE SEEDBEDS Above left : Above right : Well aggregated structure. Compact low-porosity soil with a wet layer holding water. Drainability - capable of a fast return from saturation to field capacity after high rainfall; Good crops - high yielding crops develop large root systems which maintain good structure. COURTESY OF LEMKEN UK / AGRII 3 Compaction is best spotted when soils are moist to wet. Digging holes will show layers resisting moisture movement, and checking root growth through the profile will show if remediation is needed. Long term, building roots and organic matter levels through the profile will give a sustainable structure. Removing barriers to water and root movement will allow nature to work most efficiently to provide this.
    [Show full text]
  • A Study of Agricultural Implements
    A STUDY OF AGRICULTURAL IMPLEMENTS .BY... NORMAN CHARLES WOODIN THESIS FOR THE DEGREE OF BACHELOR OF SCIENCE IN MECHANICAL ENGINEERING IN THE COLLEGE OF ENGINEERING OF THE UNIVERSITY OF ILLINOIS PRESENTED JUNE, 1904 CONTENTS. HISTORY. 1. Walking Plows. 2. Sulky and Gang Plows. 3. Harrows. 4. Grain Drills. 5. Corn Planters & check-rowers. 6. Corn Cultivators. STUDY 1. Plows. (1) Technical Terms. (2) Classification. (3) Sue tion and Land. (4) Line of Draft. (5) Tempering. (6) Classification of Goods of a Plow Manufactory. (7) Walking Plows. (1) General Purpose Plows. (2) Stubble Plows. (8) Riding Plow's. (9) Disc Plow's. (10) Curves of Plows and Profile machine. 2. Harrows. (1) Spike Tooth Harrow (2) Disc Harrows. 3. Corn Planters and Check- Rowers. 4. Cultivators. 1. A STUDY OF AGRICULTURAL IMPLEMENTS. INTRODUCTORY. There are today five distinct classes of agricultural implements. Sometimes six classes are given. They are as follows: (1) Implements for clearing the ground, break­ ing it and otherwise preparing it for the reception of the seed. (2) Implements for depositing the seed. (3) Implements for the cultivation of the plant. (4) Implements for gathering the crops. (5) Implements for preparing the crops for market. (6) Miscellaneous implements applied to var­ ious farm uses. The first, second and third classes are manufactured in one factory and form one industry, while the fourth and fifth classes each form separate industries. These are kept separate and very seldom are they seen to intermingle. It is the first class of business, comprising the first second and third classes of implements to which this thesis is devoted.
    [Show full text]
  • SL 400 Combination Cultivator/Disc Harrow Power Requirement and Quality of Work
    DLG Test Report 6256 F Great Plains International SL 400 combination cultivator/disc harrow Power requirement and quality of work Test Center Technology and Farm Inputs www.DLG-Test.de Overview The FokusTest is a smaller­scale The DLG – actual working depth and DLG usability test intended to FokusTest “Power cul tivation horizon of the tools; allow product differentiation and requirement and – profile of the soil surface before special highlighting of innova­ quality of work” and after the working step; tions in machinery and technical was carried out with the GREAT products used primarily in agri­ PLAINS DTX 300 mounted short – crumbling of the soil culture, forestry, horticulture, disc harrow with deep loosening (aggregate size distribution); fruit cultivation and viticulture, as tines (working width: 300 cm – compactness after the well as in landscape and munici­ (118 in.)). The measurements were working step; pal management. taken on harvested, largely flat – straw covering and straw areas of wheat cultivation at the incorporation; This test focuses on testing a DLG International Crop Production product’s individual qualitative Center in Bernburg­Strenzfeld – operation. criteria, e.g. fatigue strength, per­ (Saxony­Anhalt). formance, or quality of work. In addition, the tractor’s fuel con­ The DLG FokusTest “Power sumption was measured. The scope of testing can include requirement and quality of work” In order to document the field criteria from the testing frame­ examined the following testing conditions during soil cultivation, work of a DLG SignumTest, the para meters based on the DLG the stubble heights, straw yield and DLG’s extensive usability test testing framework for soil cultiva­ ground moisture were determined for technical products, and con­ tion equipment: and described.
    [Show full text]
  • Keeping It All in the Mix! Cultivation REVOLVES Around Them – Catros, Certos and Ceus!
    Keeping it all in the mix! Cultivation REVOLVES around them – Catros, Certos and Ceus! Catros compact disc harrow+ 12003-2TS The Catros compact disc harrow is the ideal machine for quick, shallow and intensive stubble culti- vation in working widths from 2.5 m to 12 m. The Certos heavy compact disc harrow is perfect for medium-deep, intensively-mixed soil tillage and for applications where there are large amounts of crop residues. With the Ceus disc & tine combination cultivator, the front discs, which provide the shallow-mix- ing, is combined with a following tine element for top soil deep loosening. Kit that has a job to do almost the whole year round Winter: Spring: Maintenance-free Incorporation of break in the winter catch crops and liquid thanks to its manure/seedbed life-long disc bearing preparation for spring lubrication crops Summer: Early stale seedbed preparation and second- Autumn: ary stubble cultivation/ Seedbed preparation incorporation of liquid combined with manure/combination of base fertilisation soil tillage with catch application crop sowing The three common strengths ∅ ∅ 1 Sprung rubber buffer mountings The elastic sprung rubber buffer blocks for suspend- ing the discs, not only ensure optimum contour fol- lowing, but also act as overload safety protection on each individual disc. The oversized rubber buffers are maintenance-free and are characterised by a large spring deflection providing peace of mind even where there are large stones about. ∅ 2 Individual disc suspension Individual disc suspension for optimised contour fol- lowing and excellent throughput complete with built-in overload protection and stone release. ∅ 2-row angular contact ball bearing 2 x seal ring (O-Ring) 2 x cast rings with face seal ∅ Face seal built into conical seats Gear oil filled housing Proven 1,000,000 times over! ∅ 3 Maintenance-free face seal No lubrication ever again – thanks to the maintenance-free disc bearings With no need to lubricate the disc bearings, this results in significantly reduced overall down times.
    [Show full text]
  • Soil-Tool-Residue Interactions: Measurements and Modelling
    Soil-Tool-Residue Interactions: Measurements and Modelling by Zhiwei Zeng A Thesis submitted to the Faculty of Graduate Studies of The University of Manitoba in partial fulfillment of the requirements of the degree of DOCTOR OF PHILOSOPHY Department of Biosystems Engineering University of Manitoba Winnipeg Copyright © 2019 by Zhiwei Zeng Abstract Soil-tool-residue interactions are at the centre of many agricultural field operations. The study of soil-tool-residue interactions is one of the fundamental aspects of soil dynamics in agricultural engineering. The aim of this study was to investigate dynamic behaviours of soil-tool-residue interactions including soil cutting forces, soil displacement, soil loosening and furrow profile, straw displacement, residue cover and incorporation. Experimental studies of soil-tool-residue interactions were conducted for various soil-engaging tools (fluted coulter, rippled disc, and compact disc harrow) working on several field conditions (corn stubble, wheat stubble, and bare soil) at different operational parameters (working speed and depth). Numerical models of the soil-tool-residue interactions were developed for a micropenetrometer, a subsoiler, and a sweep using the discrete element method (DEM). The models were calibrated and validated by comparing simulation results with experimental data from soil bin and field tests. Field testing results of vertical tillage tools demonstrated that fluted coulters left less surface residue, incorporated more residue into the soil, created a wider furrow, and disturbed a larger area than rippled discs. The effect of working speed was more dominant than the coulter geometry on the tillage performance of the fluted coulters. Soil bin tests of a compact disc harrow indicated that disc spacing and offset had significant effects on soil disturbance characteristics, and the effects varied with the tillage depth.
    [Show full text]
  • Mechanical Weed Control in Arable Crops
    MECHANICAL WEED CONTROL IN ARABLE CROPS OPTIMISING AND PROMOTING MECHANICAL WEED CONTROL CASDAR PROJECT 2009/2011. TEXT VERSION: MARCH 2012. ► ► ► ► — ► ► ► ► ► ► ► ► ► — ► ► - ► ► -— ► ► - ► ► — ► ► ► ► - ► - ► ► - — – — -- - -— TABLE OF CONTENTS PREFACE (PG. 5) MECHANICAL WEED CONTROL: GENERAL RECOMMENDATIONS (PG. 7) PREVENTIVE MEASURES FOR CONTROLLING WEEDS (PG. 9) MECHANICALLY MANAGING WEEDS DURING THE CROP SEASON (PG. 15) A FARMER'S EXPERIENCE (PG. 22) DESCRIPTIVE SHEET 1: MECHANICAL WEED CONTROL IN COMMON WHEAT (AND WINTER GRAINS) (PG. 27) DESCRIPTIVE SHEET 2: MECHANICAL WEED CONTROL IN FABA BEAN (PG. 39) DESCRIPTIVE SHEET 3: MECHANICAL WEED CONTROL IN LINSEED (PG. 47) DESCRIPTIVE SHEET 4: MECHANICAL WEED CONTROL IN MAIZE (PG. 53) DESCRIPTIVE SHEET 5: MECHANICAL WEED CONTROL IN SPRING BARLEY (PG. 61) DESCRIPTIVE SHEET 6: MECHANICAL WEED CONTROL IN SOYBEAN (PG. 67) DESCRIPTIVE SHEET 7: MECHANICAL WEED CONTROL IN SUNFLOWER (PG.
    [Show full text]
  • Estimating the Energy Requirements and Some of Technical Properties for Someof Seed Bed Preparation Equipment
    IOSR Journal of Agriculture and Veterinary Science (IOSR-JAVS) e-ISSN: 2319-2380, p-ISSN: 2319-2372. Volume 10, Issue 10 Ver. III (October 2017), PP 36-42 www.iosrjournals.org Estimating the Energy Requirements and some of Technical properties for someof seed bed Preparation Equipment. Abdulrazak A. Jasim¹Faiz F. Majeed² Laith A. AL- Hashimy ³ ¹ Professor Doctor, Dept. of Agricultural Machines and Equipment, College of Agriculture, Univ. of Baghdad, ² Lecturer, Dept. of Agricultural Machines and Equipment, College of Agriculture, Univ. of Baghdad, ³ Lecturer, Dept. of Agricultural Machines and Equipment, College of Agriculture, Univ. of Baghdad, Corresponding Author: Laith A. AL- Hashimy Abstract: BACKGROUND: The presence of farm tractor, and his active rule to operates most of farm equipment in the second half of the nineteenth century made it the main source of power in the farm, many developments on tractors had led to the improvement and variation of their power sources. The multiplicity and diversity of soil types, crops, agricultural process and climatic conditions due to different countries or regions led to found different collections of seed bed preparation equipment each one has different function. OBJECTIVE: To estimating and evaluating the energy requirements and some technical indicators of some seed bed preparation equipment with New Holland tractor. RESULTS: Land plane showed a superiority comparing with disc ridger and ditcher in recording higher practical productivity, lowest fuel consumption, lowestmachinery unitenergy requirement, and the lowest treatment practical depth. CONCLUSION: Land plane with rotary harrow and the chiselplow achieved the highest practical productivity, lowest treatment practical depth, and the lowest energy requirement.
    [Show full text]
  • Computer Aided Adaptive System Design with Engineering Systematics and Manufacturing
    Advances in Science and Technology Research Journal Volume 11, Issue 4, December 2017, pages 83–96 Research Article DOI: 10.12913/22998624/77069 COMPUTER AIDED ADAPTIVE SYSTEM DESIGN WITH ENGINEERING SYSTEMATICS AND MANUFACTURING Gurkan Irsel1 1 Department of Mechanical Engineering, Trakya University, Edirne 22100, Turkey e-mail: [email protected] Received: 2017.09.18 ABSTRACT Accepted: 2017.11.01 This research practically discusses and presents the stages of design process in prod- Published: 2017.12.05 uct development. Design process was realized through CATIA. The product devel- oped is an agricultural device called as “disc harrow”. Therefore, agricultural details are presented together with machine design. A roller system is added to disc harrow in this study. Thus; the current system and the additional roller system are discussed with the principles of methodological construction and design objectives are defined. Both the current system and the additional roller system are designed in parallel with these objectives. Structural stress analysis is performed at different kinetic positions of the disc harrow connection of the roller system. System design is achieved by considering the feedback from such analyses and design objectives. The hereby design is obtained. The additional roller system is mounted and field survey is carried out. Contribution of the roller to disc harrow process, defined design objectives, ratio of the realization of design objectives and results of stress analyses are evaluated. Keywords: CATIA, structural analysis, shape design, adaptive structure, product de- velopment, disc harrow INTRODUCTION low this traditional agricultural operation equip- ment to perform in a more efficient manner. Today’s modern agriculture industry requires Utilization of combined and modular systems a wide variety of equipment and special machine is an effect solution for sustainable agriculture.
    [Show full text]
  • Nbilograpi Bibliographic Data Sheet
    BIBLIOGRAPHICNBILOGRAPI.PN-AAH-969DATA SHEET 1.CONTROLNUMBER 1j2. SUBJECTAH60-0000-G148 CLASSIFICATION (695) f~ITLF. AND SUBTITLE (240) Weed control problems in Tanzania; a review team report 4. VERSGNAL AUT1IORS (100) Hiller, S. F.; Burrillq L. C. 5. CORPORATE AUTHORS (101) Or. State Univ. Int. Plant Protection Center. 6. DOCUMENv' DATE (110) 17. NUMBER OF PAGES (120) 8. ARC NUMBER (170) 1980J 4 2 p. TZ632.58.M651 9. REFERENCE ORGANIZATION (130) Or. State I f SUPPLEMENTA RY NOTES (500) 1I. ABSTRACT (950) 12. DESCRIPTORS (920) 13. PROJECT NUIBER (150) Tanzania Weed control 931020600 Herbicides 4. CONTRACT NO.(140) Agricultural research 15. CONTRACT AID/ta-C-1303 TYPE (140) 16. TYPE OF DOCUMENT (160) W'EED CONTROL PROBLEMS IN TANZANIA International Plant Protection Center Document 34-A-80 WEED CONTROL PROBLEMS IN TANZANIA A review team report by S.F. Miller and L.C. Burrill June 1980 Published by the International Plant Protection Center Oregon State University Corvallis, OR 97331 / USA. In cooperation with the U.S. Agency for International Development / Oregon State University project: Weed Control Systems Utilization for Representative Farms in Developing Countries, AID/ta-C-1303. The views and interpretations in this publication are those of the authors and should not be attributed to the Agency for Iternational Development or to any individual acting in their behalf. .Acknowledgment ....... 2 Sunmary ....... 3 Purpose of review . .4 Review team 4 Itinerary --------------------------------------- I nt r o duct i on - - - ---- I. Seed farms II. NAF farm ------------------------------------- 13 III. Research institutes ------------------------------­ 20 IV. &Mall farmer weed control ------------------------­ 26 V. Contrcl. of important weed species of Tanzania --------- 29 VI.
    [Show full text]
  • Effects of Working Depth and Wheel Slip on Fuel Consumption of Selected Tillage Implements
    182 March, 2014 Agric Eng Int: CIGR Journal Open access at http://www.cigrjournal.org Vol. 16, No.1 Effects of working depth and wheel slip on fuel consumption of selected tillage implements G. Moitzi1*, H. Wagentristl2, K. Refenner2, H. Weingartmann1, G. Piringer1, J. Boxberger1, A. Gronauer1 (1. University of Natural Resources and Life Sciences (BOKU); Department of Sustainable Agricultural Systems; Division of Agricultural Engineering, Peter Jordan-Strasse 82; A-1190 Vienna; 2. University of Natural Resources and Life Sciences (BOKU); Department of Crop Science; Experimental Farm Gross Enzersdorf, Schlosshoferstraße 31; A-2301 Gross Enzersdorf Abstract: Rising fossil fuel prices are leading to an increasing awareness of energy efficiency in plant production. Tillage in particular can consume large amounts of fuel. For four tillage implements (reversible mouldboard plough, short disc harrow, universal-cultivator, subsoiler), this study quantifies the effect of different working depths on fuel consumption, wheel slip, field capacity and specific energy consumption. A four-wheel drive tractor (92 kW) was equipped with a data-acquisition system for engine speed, vehicle speed, wheel speed and fuel consumption. Fuel consumption was measured in the fuel system with an integrated high-precision flow-meter. The results show that the area-specific fuel consumption increased linearly with working depth for both the mouldboard plough and the short disc harrow, but disproportionately for the subsoiler. Wheel slip was found to increase fuel consumption and decrease field capacity performance at all depths. The influence of the engine speed was shown in a separate experiment with a universal-cultivator. Increasing the engine speed from 1,513 r min-1 to 2,042 r min-1 results in an increase of 80% for the fuel consumption rate (L/h) and 35% for the area-specific fuel consumption (L/ha).
    [Show full text]
  • Weeds Have Been the Problem Since the Agriculture Came Into Existence
    Title of Course Organic Farming Class B. Sc. Ag , Third Year Topic Weed Management in Organic Farming College College of Agriculture , Jabalpur By Dr Amit Kumar Jha INTRODUCTION rice (Oryza sativa), Chulai(Amaranthus spp), Gullidanda (Phalaris minor), Bhang Weeds have been the problem since (Cannabis sativa), mexican poppy the agriculture came into existence as these (Argemone mexicana), Hiran Khuri compete with the crop of interest for various (Convolvulus arvensis) etc. Some of them resources and also act as hosts for different are allergic and noxious such as P diseases and insects. Losses in Indian hysterophorus (congress/carrot grass), agriculture due to weeds account for 33 per Cirsium arvense (Canada thistle), cent. Among the different weeds some of the Stinking nettle (Bichhu Buti) etc. The important ones are: congress grass ubiquitous presence of such plants is (Parthenium hysterophorus), wild oat responsible for health problems from skin (Avena fatua), Dudhi (Euphorbia spp), Bathu allergies to breathing trouble and sinusitis (Chenopodium album), Phoolakri (Lantana injurious to livingorganisms (Jose and Saini camara), Doob (Cynodon dactylon), 2015). For the weed management motha (Cyprus rotundus),wild conventionally chemical herbicides are being used. The herbicides are very Cultural practices effective for weed control but they prove to be detrimental in various ways for Crop rotation: The weeds such as P example some of them have residual minor, A fatua etc which are associated effects, some make the soil sick, some with the specific crops can be controlled by cause air pollution thereby respiratory or means of crop rotation. These weeds can skin problems, some cause water be managed in wheat field by growing pea, pollution and some of them are harmful to gramorpotato in rotation.
    [Show full text]