Changing Agriculture: The Impact of Modern Agriculture Equipment

In the big fields out there, farming is changing quietly. Before, farming needed lots of people working hard, but now machines are doing most of the work. These agriculture equipment are making farming faster and better.

Tractors are like strong horses on farms. They have changed a lot over time. Now, they have special systems to guide them and do things automatically. Tractors can do many jobs like planting seeds, putting fertilizer, and collecting crops. They do all these jobs much faster than people can.

But tractors aren't the only machines helping farmers. There are many other tools designed to do specific jobs. Planters and seeders help farmers plant seeds in the ground in just the right way. Sprayers make sure that plants get the right amount of fertilizer and protection from bugs. Harvesters can tell when crops are ready to be picked and collect them carefully.

Modern farming tools don't just help farmers on the farm. They also help make sure there's enough food for everyone. By making farming better, these tools help farmers use less water and chemicals. This is good for the environment. They also help farmers do their jobs better so they can make more money. And that's good for everyone.

But these tools can be expensive. Some farmers, especially in poor countries, can't afford them. Also, because technology is always changing, farmers need to keep updating their tools to stay competitive. Some people also worry that machines will take away jobs from people who work on farms.

Even with these challenges, modern farming tools are making a big difference. They're helping farmers grow more food, protect the environment, and make a better living. In the future, these tools will keep getting better and help make sure there's enough food for everyone.

Modern Farm Equipment in Agriculture

Modern Farm Equipment in Agriculture

Modern farm equipment plays a crucial role in enhancing agricultural productivity and efficiency. With advancements in technology, agriculture has witnessed the integration of various cutting-edge tools and machinery. Here are some examples of modern farm equipment used in agriculture:

Tractors: Tractors are versatile machines used for a wide range of agricultural tasks. They are equipped with powerful engines, multiple attachments, and advanced features such as GPS guidance systems, automatic steering, and precision farming capabilities.

Harvesters: Harvesters are specialized machines designed for efficient harvesting of crops such as wheat, corn, rice, and soybeans. They can perform tasks like cutting, threshing, separating, and collecting the crops in a single operation.

Planters and seeders: These machines are used to sow seeds and plant crops with precision. They can distribute seeds at specific depths and intervals, ensuring optimal plant spacing and uniformity.

Sprayers: Sprayers are used to apply fertilizers, pesticides, and herbicides to crops. Modern sprayers are equipped with advanced technologies such as GPS guidance, variable rate application, and boom section control, which help minimize chemical usage and ensure accurate spraying.

Irrigation systems: Advanced irrigation systems, such as center pivots, drip irrigation, and precision sprinklers, are used to efficiently deliver water to crops. These systems can be automated and controlled remotely, allowing farmers to optimize water usage and minimize wastage.

Combine harvesters: Combine harvesters are multifunctional machines that perform harvesting, threshing, and cleaning operations in a single pass. They are commonly used for cereal crops like wheat, barley, and oats.

Autonomous robots and drones: Robotics and drones are increasingly being used in agriculture. Autonomous robots can perform tasks like planting, weeding, and harvesting, while drones are used for crop monitoring, aerial mapping, and pest detection. These technologies help reduce labor costs, increase efficiency, and provide valuable data for precision agriculture.

GPS and precision farming technology: Global Positioning System (GPS) technology combined with precision farming techniques enables farmers to optimize field operations. It allows for accurate mapping, guidance, and variable rate application of inputs such as seeds, fertilizers, and chemicals, based on real-time data and field variability.

Livestock management systems: Modern farm equipment also includes technologies for livestock management. Automated feeding systems, milking machines, and electronic identification systems help improve efficiency, animal welfare, and data collection for monitoring and managing livestock.

Soil and crop monitoring equipment: Various tools and sensors are used to monitor soil conditions, nutrient levels, moisture content, and crop health. These devices provide valuable data to farmers, enabling them to make informed decisions regarding irrigation, fertilization, and pest control.

Overall, modern farm equipment and agricultural technologies have revolutionized the industry by increasing productivity, reducing labor requirements, and promoting sustainable farming practices. These advancements continue to evolve, driven by ongoing research and development efforts in the agricultural sector.

What are the modern farming equipment?

Modern farming equipment encompasses a wide range of tools and machinery designed to improve efficiency, productivity, and sustainability in agriculture. Here are some examples of modern farming equipment:

Tractors: Tractors are versatile machines used for various tasks on the farm, such as plowing, tilling, planting, harvesting, and transportation. They are equipped with powerful engines, advanced transmissions, and hydraulic systems for attaching and operating different implements.

Harvesters: Harvesters are specialized machines used to efficiently harvest crops. They are available in various types, including combine harvesters for cereal crops, cotton harvesters, sugarcane harvesters, and forage harvesters for silage production.

Planters and seeders: Planters and seeders are used for precise and efficient planting of seeds. They can distribute seeds at specific depths and intervals, ensuring optimal plant spacing and uniform emergence.

Sprayers: Sprayers are essential for applying fertilizers, pesticides, and herbicides to crops. Modern sprayers are equipped with technologies such as GPS guidance, automatic boom section control, and variable rate application, which help minimize chemical usage and ensure accurate spraying.

Irrigation systems: Advanced irrigation systems are crucial for providing water to crops efficiently. These include center pivot systems, drip irrigation, sprinkler systems, and precision irrigation technologies that enable precise water application based on crop needs and soil conditions.

Autonomous robots and drones: Robotics and drones are increasingly being used in agriculture. Autonomous robots can perform tasks such as planting, weeding, and harvesting, while drones are used for crop monitoring, aerial mapping, and pest detection. These technologies help reduce labor requirements and provide valuable data for decision-making.

Livestock equipment: Livestock equipment includes feeding systems, milking machines, automatic manure handling systems, and electronic identification systems for managing and monitoring livestock. These technologies improve efficiency, animal welfare, and data collection for livestock management.

GPS and precision farming technology: Global Positioning System (GPS) technology, combined with precision farming techniques, enables farmers to optimize field operations. GPS-guided equipment allows for accurate mapping, guidance, and variable rate application of inputs such as seeds, fertilizers, and chemicals based on real-time data and field variability.

Soil and crop monitoring equipment: Various tools and sensors are used for monitoring soil conditions, nutrient levels, moisture content, and crop health. These devices provide valuable data for decision-making, allowing farmers to optimize irrigation, fertilization, and pest control practices.

Data management and farm management software: Farm management software and data management tools help farmers collect, analyze, and utilize data for decision-making. These platforms integrate data from various sources, including machinery, sensors, and weather stations, to optimize farm operations and improve efficiency.

These examples represent some of the modern farming equipment available today, but the agricultural technology landscape continues to evolve with ongoing advancements and innovations.

What are 5 modern tools for agriculture?

Here are five modern tools commonly used in agriculture:

Soil Moisture Sensors: Soil moisture sensors are devices that measure the moisture content in the soil. These sensors provide real-time data on soil moisture levels, allowing farmers to optimize irrigation practices. By ensuring that crops receive the right amount of water at the right time, farmers can improve water efficiency, reduce water wastage, and enhance crop health.

Precision Planters: Precision planters are advanced seed-planting machines equipped with technologies such as variable rate seed metering and GPS guidance. These tools enable farmers to achieve precise seed placement, uniform spacing, and optimal plant populations. Precision planters help improve crop establishment, maximize yield potential, and reduce seed wastage.

Handheld Crop Scanners: Handheld crop scanners or portable spectrometers allow farmers to assess crop health and nutrient status quickly. These tools measure various indicators such as chlorophyll content, nitrogen levels, and overall plant vigor. By providing instant feedback on crop conditions, farmers can make informed decisions regarding fertilization, pest management, and overall crop management strategies.

Unmanned Aerial Vehicles (UAVs) or Drones: Drones equipped with specialized cameras and sensors are increasingly used in agriculture. UAVs can capture high-resolution aerial images, multispectral data, and thermal imagery of crop fields. This data helps farmers identify variations in crop health, detect pest or disease outbreaks, assess plant density, and monitor irrigation effectiveness. Drones provide valuable insights for precision farming and enable targeted interventions.

Mobile Farm Management Apps: Mobile farm management apps are software tools designed to assist farmers in day-to-day farm management activities. These apps provide features like field mapping, crop planning, task scheduling, inventory management, and data analysis. By using mobile apps, farmers can streamline their operations, improve data organization, and make informed decisions on the go.

These tools are just a few examples of the many modern tools available in agriculture today. They demonstrate the integration of technology to enhance efficiency, optimize resource usage, and improve productivity in the farming sector.

What is modern agriculture farming?

Modern agriculture farming, also known as contemporary or advanced agriculture, refers to the application of modern technologies, techniques, and practices in agricultural production. It involves the integration of various cutting-edge tools, machinery, and scientific knowledge to enhance productivity, efficiency, and sustainability in farming.

Key characteristics of modern agriculture farming include:

Technological Integration: Modern agriculture relies heavily on the integration of advanced technologies. This includes the use of precision farming tools, such as GPS guidance systems, drones, sensors, and data analytics, to optimize inputs, monitor crops, and make data-driven decisions. Agricultural machinery and equipment are also equipped with advanced features and automation, enabling precise operations and reducing labor requirements.

Precision and Efficiency: Modern agriculture emphasizes precision and efficiency in all aspects of farming. Farmers use precision planting equipment for accurate seed placement, apply fertilizers and pesticides with precision sprayers to minimize waste, and utilize advanced irrigation systems for efficient water management. By optimizing resource usage and minimizing environmental impact, modern agriculture aims to achieve higher yields with lower inputs.

Sustainable Practices: Sustainable agriculture is a core principle of modern farming. It focuses on minimizing the negative impact on the environment, promoting soil health and conservation, and adopting practices that preserve natural resources for future generations. This includes implementing conservation tillage methods, cover cropping, crop rotation, integrated pest management (IPM), and organic farming techniques.

Data-Driven Decision Making: Modern agriculture relies on data collection, analysis, and interpretation to make informed decisions. Farmers collect data on soil conditions, weather patterns, crop growth, and pest and disease prevalence. This data is then analyzed to optimize resource allocation, adjust farming practices, and identify areas for improvement. Farm management software and data analytics platforms play a crucial role in processing and interpreting this data.

Diversification and Specialization: Modern agriculture recognizes the benefits of diversifying crops and adopting specialized farming practices. Farmers may grow a variety of crops, including cash crops, high-value crops, and rotational crops, to optimize land use and mitigate risks associated with market fluctuations. Specialization in niche markets, such as organic or local produce, can also be part of modern agriculture.

Continuous Innovation: Modern agriculture is characterized by a continuous pursuit of innovation and adoption of new technologies and practices. Farmers and agricultural researchers actively engage in ongoing research and development to identify innovative solutions to challenges in farming. This can include advancements in genetic engineering, biotechnology, digital agriculture, and sustainable farming practices.

The goal of modern agriculture farming is to enhance agricultural productivity, improve profitability for farmers, minimize environmental impact, and ensure food security in a rapidly changing world. By embracing technology, sustainable practices, and data-driven decision-making, modern agriculture aims to address the challenges of feeding a growing global population while safeguarding natural resources.

What are 4 modern farming methods?

Modern farming methods encompass a range of innovative techniques and practices that have emerged to improve agricultural efficiency, sustainability, and productivity. Here are four examples of modern farming methods:

Precision Farming: Precision farming, also known as precision agriculture, utilizes advanced technologies to optimize farming practices at a precise level. It involves the use of GPS, sensors, drones, and data analytics to gather information about soil conditions, crop health, and other variables. This data is then used to make informed decisions regarding inputs such as irrigation, fertilization, and pest management. Precision farming enables farmers to apply resources precisely where and when they are needed, minimizing waste and maximizing yields.

Vertical Farming: Vertical farming is an innovative method that involves growing crops in vertically stacked layers or on vertically inclined surfaces, typically indoors or in controlled environments. This method makes efficient use of space and resources by utilizing vertical space and employing artificial lighting, climate control, and hydroponic or aeroponic systems. Vertical farming reduces the need for traditional land and allows for year-round cultivation, offering the potential for increased crop production in urban areas and reducing the environmental impact associated with long-distance transportation of produce.

Aquaponics: Aquaponics combines aquaculture (fish farming) and hydroponics (growing plants without soil) in a symbiotic system. It involves cultivating fish and using their waste as a nutrient-rich water source for the plants, while the plants filter the water, creating a sustainable cycle. Aquaponics reduces water usage, eliminates the need for synthetic fertilizers, and maximizes resource efficiency. It is an innovative method for producing both fish and vegetables in a closed-loop system.

Conservation Agriculture: Conservation agriculture is a set of farming practices that aim to protect the soil, enhance its fertility, and reduce erosion while maintaining high crop yields. It involves minimizing soil disturbance (reduced tillage or no-till), maintaining soil cover with crop residues or cover crops, and practicing crop rotation. Conservation agriculture helps to improve soil structure, reduce erosion, increase water infiltration, and promote biodiversity. It also contributes to carbon sequestration and climate change mitigation.

These modern farming methods highlight the integration of technology, innovative systems, and sustainable practices to address the challenges faced by traditional agriculture. By adopting these methods, farmers can enhance productivity, reduce environmental impact, conserve resources, and contribute to a more sustainable and resilient agricultural system.

What are six modern ways of farming?

Here are six modern ways of farming that have gained popularity in recent years:

Organic Farming: Organic farming focuses on cultivating crops and raising livestock using organic materials and practices that promote ecological balance and biodiversity. It avoids the use of synthetic fertilizers, pesticides, genetically modified organisms (GMOs), and antibiotics. Organic farming emphasizes soil health, crop rotation, composting, and natural pest control methods. It aims to produce nutritious, environmentally friendly, and chemical-free food.

Hydroponics: Hydroponics is a soil-less farming method that involves growing plants in nutrient-rich water solutions instead of traditional soil. Plants are grown in containers or vertical towers, and their roots are directly exposed to the nutrient solution. Hydroponic systems can be indoors or in controlled environments, allowing year-round cultivation. This method conserves water, maximizes space utilization, and enables precise nutrient control, resulting in efficient and high-yield crop production.

Urban Farming: Urban farming involves cultivating crops, raising livestock, or keeping bees in urban areas. It utilizes vacant lots, rooftops, vertical structures, or community gardens to grow food locally. Urban farming contributes to food security, reduces the carbon footprint associated with transportation, and provides access to fresh produce in urban settings. It often employs techniques such as container gardening, vertical farming, and aquaponics.

Agroforestry: Agroforestry is a land-use system that combines the cultivation of trees or shrubs with agricultural crops or livestock. It promotes the integration of trees or woody perennials alongside annual or perennial crops, providing multiple benefits. Agroforestry systems enhance soil fertility, conserve water, reduce erosion, sequester carbon, and provide additional income streams through timber, fruits, nuts, or fodder production. They contribute to biodiversity conservation and sustainable land management.

Community Supported Agriculture (CSA): CSA is a farming model where consumers become members or subscribers of a farm and receive a regular share of the farm's produce. Members typically pay upfront or on a seasonal basis to support the farm's operation and, in return, receive a portion of the farm's harvest. CSA builds a direct relationship between farmers and consumers, promotes local food production, reduces food miles, and fosters community engagement in agriculture.

Vertical Farming: Vertical farming involves growing crops in vertically stacked layers or on vertically inclined surfaces, often in controlled environments or indoor settings. It utilizes artificial lighting, hydroponics, or aeroponics to optimize plant growth. Vertical farming maximizes space utilization, reduces water usage, and enables year-round crop production. It is particularly suitable for urban areas with limited land availability and offers the potential for local, fresh food production.

These modern farming methods showcase the diversification and innovation in agriculture, addressing various challenges such as resource efficiency, urbanization, and sustainability. They contribute to a more resilient and sustainable food system in an evolving agricultural landscape.

What are the 3 different modern farming methods?

There are numerous modern farming methods, but here are three different ones that have gained prominence:

Precision Farming: Precision farming, also known as precision agriculture, involves the use of advanced technologies and data-driven approaches to optimize farming practices at a precise level. It utilizes tools such as GPS, sensors, drones, and farm management software to collect data on soil conditions, crop health, and environmental factors. This data is then analyzed to make informed decisions regarding the precise application of inputs, such as fertilizers, pesticides, and water, tailored to the specific needs of different areas within a field. Precision farming improves resource efficiency, reduces input wastage, and maximizes crop yields.

Vertical Farming: Vertical farming is a method that involves growing crops in vertically stacked layers or on vertically inclined surfaces, often indoors or in controlled environments. This technique utilizes artificial lighting, climate control systems, and hydroponics or aeroponics to create optimal growing conditions for plants. Vertical farming maximizes space utilization by growing crops in a vertical arrangement, allows for year-round cultivation, reduces the need for traditional land, and minimizes water usage. It offers potential benefits in urban areas where land availability is limited and aims to provide locally grown, fresh produce.

Organic Farming: Organic farming is an agricultural approach that focuses on cultivating crops and raising livestock using organic materials and practices. It aims to promote ecological balance, biodiversity, and soil health while avoiding the use of synthetic fertilizers, pesticides, GMOs, and antibiotics. Organic farming emphasizes the use of organic fertilizers, crop rotation, cover cropping, and natural pest control methods. It aims to produce food that is free from chemical residues, environmentally sustainable, and promotes animal welfare. Organic farming systems often follow strict certification standards to ensure compliance with organic principles.

These three modern farming methods represent different approaches to address specific challenges and objectives in agriculture. Precision farming optimizes resource usage, vertical farming maximizes space efficiency, and organic farming prioritizes sustainable and chemical-free practices.

Global Automatic Agricultural Seeder Market Size, Share, Segments and Growth Factor Analysis Report 2028

The study on Automatic Agricultural Seeder Market with its type and application sales analysis is very essential for all the decision-makers or strategists operating in this industry. The report is made by analysts with deep industry knowledge and experience. The global, regional, and country annual sales and revenue has been studied for the historical years and estimated for the current year. With the help of analytical tools, primary interviews, and data triangulation the report is enriched with quality data. The qualitative data on the upcoming industry trends with market triggers and risks are covered as a separate section in this comprehensive report.

As understood and analyzed in the global Automatic Agricultural Seeder market report the growth CAGR in the year 2022 to 2028 is showing a promising inclination. The macro and microeconomic conditions are studied and forecast data is anticipated.

Click here to get a FREE Sample PDF Copy of the Automatic Agricultural Seeder Market Research Report @ https://www.decisiondatabases.com/contact/download-sample-59791

As per this report analysis, the Automatic Agricultural Seeder market is expected to show a CAGR (revenue) of xx% between the forecast years and the global market size can cross USD XX million by the end of 2028, growing from USD XX million in the year 2022. This report specifically covers the global market share (sales as well as revenue) of key companies in the Automatic Agricultural Seeder business, as mentioned in a separate Chapter 3.

Regionally, the Automatic Agricultural Seeder market data is studied under the below-mentioned regions and countries – Americas covering (United States, Canada, Mexico, Brazil), APAC covering (China, Japan, Korea, Southeast Asia, India, Australia), Europe covering (Germany, France, UK, Italy, Russia, Spain), Middle East & Africa covering (Egypt, South Africa, Israel, Turkey, and other GCC Countries).

This research study gives a comprehensive overview of market share and growth opportunities of the Automatic Agricultural Seeder market as per type and application. The report also covers key manufacturers’ profiles with sales and gross margin data.

The key manufacturers covered in this report: Breakdown data in Chapter 3.

CNH Industrial

AGCO Corporation

John Deere

Great Plains

Bourgault Industries

Morris Industries

Amity Technology

KUHN

Vaderstad

Agricola

Hiniker Co

Gandy Company

Others

To inquire about report customization, feel free to reach out to our team of expert analysts @ https://www.decisiondatabases.com/contact/ask-questions-59791

This study considers the Automatic Agricultural Seeder value and volume generated from the sales of the following segments:

Segmentation by type: breakdown data from 2017 to 2022, in Section 2.3; and forecast to 2028 in section 11.7.

Air Seeder

Box Drill Seeder

Segmentation by application: breakdown data from 2017 to 2022, in Section 2.4; and forecast to 2028 in section 11.8.

Wheat Application

Corn Application

Soybeans Application

Others

The latest developments of the industry and the sales channel, manufacturing process along with the manufacturing cost study is covered in the report.

Key Questions Answered –

What will be the Automatic Agricultural Seeder market CAGR and size between 2022-2028?

Who are the top/leading players of the Automatic Agricultural Seeder market?

What changes are expected in the Automatic Agricultural Seeder market in the next six years?

Which are the top product and leading applications of the Automatic Agricultural Seeder market?

What are the leading market drivers and major risks factors for the Automatic Agricultural Seeder market?

Which region/country leads and foresees highest growth in the next six years?

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DecisionDatabases.com is a global business research report provider, enriching decision makers and strategists with qualitative statistics. DecisionDatabases.com is proficient in providing syndicated research reports, customized research reports, company profiles, and industry databases across multiple domains. Our expert research analysts have been trained to map clients’ research requirements to the correct research resource leading to a distinctive edge over its competitors. We provide intellectual, precise, and meaningful data at a lightning speed.

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Introduction of Cycloid Hydraulic Motor

The ring gear is fixedly connected with the housing, and the oil entering from the oil port pushes the rotor to revolve around a center point. This slow-rotating rotor drives the output through a splined shaft called a cycloid hydraulic motor. After the advent of this original cycloid motor, after several decades of evolution, another concept of the motor also began to form. This motor has rollers installed in the built-in ring gear. Motors with rollers provide high starting and running torque. The rollers reduce friction and thus improve efficiency. Even at very low speeds, the output shaft is Can produce stable output. By changing the direction of the input and output flow, the motor is quickly reversed, and an equal amount of torque is generated in both directions. Each series of motors are available in various displacement options to meet various speed and torque requirements.

The cycloid hydraulic motor is a small low-speed high-torque hydraulic motor with one-axis flow distribution insert tooth stator-rotor pair. The advantages are as follows:

1. Small size and light weight, its overall size is much smaller than other types of hydraulic motors with the same torque.

2. Wide range of rotation speed, stepless speed regulation, minimum stable rotation speed up to 15 rpm, convenient installation and layout, low investment cost.

3. It can be used in series or in parallel in the hydraulic system.

4. Small rotational inertia, easy to start under load, can be used in both forward and reverse directions, and does not need to stop when reversing.

Cycloidal hydraulic motors are widely used, mainly used in the slewing mechanism of various machinery such as agriculture, fishery, light industry, lifting and transportation, mining, construction machinery and so on. Examples of foreign applications of cycloid hydraulic motors:

1. Agricultural use: all kinds of combine harvesters, seeders, rotary tillers, lawn mowers, sprayers, feed mixers, ground drilling machines.

2. Fishing: netting machine.

3. For light industry: winding machine, textile machine, printing machine, business washing machine.

4. Construction industry: road rollers, cement mixers, sweepers.

Structure and performance characteristics

The cycloid hydraulic motor is integrally formed with the output shaft and the distribution valve. The cycloid hydraulic motor of the toothed stator and rotor pair is shown in Fig. 1 for its specific structure. The main features are:

1. The end face distribution and axial distribution are adopted, the structure is simple and compact, and the distribution accuracy is high;

2. Adopting toothed stator and rotor pair, high mechanical efficiency and long service life under high pressure operation;

3. Using double angular ball bearings, it can bear large radial and axial loads, with low friction and high mechanical efficiency.

4. The advanced design of distribution mechanism has the characteristics of high distribution accuracy and automatic wear compensation.

5. The motors are allowed to be used in series and in parallel. When used in series, they should be connected to the external drain port.

6. It adopts tapered roller bearing support design, which has a large radial bearing capacity, so that the motor can directly drive the working mechanism.

7. A variety of flanges, output shafts, oil ports and other installation and connection forms.

Operation Precautions

1. Before operation, check whether all components of the hydraulic system are connected correctly, and add oil to the specified height through the filter.

2. Start and run for 10-15 minutes under no-load state, and exhaust, there is foam in the fuel tank, the system has noise, and the motor cylinder has stagnation, which proves that there is air in the system.

3. After removing the air, fill up the fuel tank, and then start to gradually increase the load on the motor until the maximum load is reached, and observe whether there are abnormal phenomena, such as noise, oil rise and oil leakage.

4. Change the oil once after 50 hours of operation, and then replace it according to the maintenance rules.

5. If it is not a motor failure, please do not disassemble it easily.

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Agriculture Machinery In Nigeria

Agriculture Machinery In Nigeria

Animal Feed Pellet Making Machine This Floating Fish Feed Pellet Making Machine is widely used for producing maize flour, soybean flour or compound powder, wheat bran into high grade aquatic feed pellets for fish, catfish, shrimps, dog,.cat etc. The puffing fish feed pellets can float on the water surface for over12 hours without water polution.

Automatic cassava planter Cassava planter seeder (ridging type) is special planter ridger prepare cassava field. It can finish ditching, fertilizing, cutting and putting cassava stem for sowing, covering soil, vibration pressure processing at the same time.

Crop Bean Maize Threshing Machine Multifunctional thresher with high capacity(0.8-4t/h) is fit for many crops like wheat,rice, sorghum,corn, soybean,millet, etc. Removal rate can reach to 98%.Machine with 3 motor options : electric, gasoline or diesel.

Major Types Of Agriculture Equipment To Consider

Major categories of farm machineries and tools are seeders, pumps, tillers, harvesters, adzers, harvester, ploughs, seed spreaders, tillage vehicles, coverings, fertilizers, pesticides, fertilizers, automatic storage systems, tillage equipment, tillage rakes, etc. Agriculture farming needs an ample amount of investment. For successful farm management, it is important to understand the needs of your farm.

Major Types of Agriculture Equipment the most commonly used are:

Tractors. Hay &grain Machines. Other agricultural equipment includes: sprinklers, cover crops, fertilizers, tillers, feed mixes, seed dressing mixes, livestock feeds, animal health testing, fertilizers, pesticides, fertilizers, mechanical harvesting, broadcast lines, nursery equipment, fruit and vegetable markets, milk processors, dairy and food processing, co-op farms, hay and grain handling, and packaging.

The need for effective and economically viable strategies and practices is necessary. Economic viability of agriculture is growing by the day. This requires development of economic policies that ensure sustainability of inputs and production over a long term basis. Agriculture has an important contribution to make in building a healthy and a safe nation. Analyses of agriculture help to understand the trends and nuances that affect the supply chain, technology transfer, pricing and marketing of agriculture products.

Major analysis of demand. Trends analysis helps to understand and predict the future demand for a particular product. This helps to adjust supply according to the demand. Supply and demand analysis is particularly important in meeting the strategic objectives of farmers. This includes assessment of the shifting consumption preferences and the effects of price increases on the various aspects of the business.

Major types of farm equipment and tools: There are different types of farm machineries and equipment available in the market. Each of them is used for different purposes. Machinery used for irrigation, reclamation, crop rotation, farming, horticultural etc. is known as farm equipment.

Major categories of farm machineries and tools are seeders, pumps, tillers, harvesters, adzers, harvester, ploughs, seed spreaders, tillage vehicles, coverings, fertilizers, pesticides, fertilizers, automatic storage systems, tillage equipment, tillage rakes, etc. Agriculture farming needs an ample amount of investment. For successful farm management, it is important to understand the needs of your farm.

As farming needs a large amount of inputs, there are a variety of equipments available that can help you with the tasks involved in the agricultural farming business. You can choose from the list of the major types of agricultural tools and machineries. Each of these has its own set of advantages. You need to choose the right type of machineries and tools that suit the type of farms you have.

An analysis of the type of farming activities that you do will help in deciding the equipments to be purchased. For instance, if your farming activities involve irrigation then you will require a hydraulic tiller. This will help you to till the soil properly and efficiently. It will also make sure that the produce of the farm is properly cleaned and sorted.

The major types of machineries and tools include those that are used for tilling the soil, planting, digging and screening the land. Other equipment like combines, forage harvesters, grain-feeders and ploughs are also important for agricultural farming. In order to increase the yield of the crops, farmers make use of hydrometers, weighing scales, trolleys, tillage machines and so on. All these help in ensuring that the yield is high.

The analysis of the present status of your farm needs a detailed investigation. It should include an assessment of the present working, layout and condition of the farm equipment. For instance, if the analysis shows that the fields are not properly watered then it is necessary to provide artificial water. Similarly, if the analysis indicates that there are many weeds in the fields then it is important to remove them quickly. A detailed analysis of the status of your farm can help you determine the most profitable equipment to be bought and placed in the fields.

The prices of the major types of agricultural machinery and tools vary according to the make and the capacity of the machine or tool. These tools and machinery are available at many places either through retail dealers or from online sources. It is advisable to buy these farming equipment from dealers who have an established reputation in the market and they offer reasonable rates. It is better to go through the online reviews of such dealers before making the final decision.

Research objectives:

To understand and analyse the global agriculture market key players agriculture, product type, application and history data across the world. To identify the drivers of the growth in global agriculture market. To provide a framework for policy makers to improve the management of the food market. Developing a framework for research in agricultural sciences. Establishing an integrated information system that will help users to access and process information from diverse sources.

Smart farming the need of the hour

Farming involves the mixing of advanced technologies into existing farm architecture. IoT-based solutions and services are in more demand now using agriculture apps for Smart farming in order to increase the production quality of agricultural products and the efficiency at which products are produced. Smart farming is considered a management concept or a way to address the challenges that the food industry is experiencing, such as climate change.

Smart farming is going to be ready to increase the effectiveness of pesticide and fertilizer use in a selective manner, it can provide farmers the power to watch individual needs of all animals, it can help prevent disease and increased herd health, and it can even allow farmers to watch crop health and speed up harvest. Currently, there are three agricultural technologies that are expected to become the pillars of the industry, autonomous robots, drones or UAVs, and therefore the IoT sensors based farming solutions

Three Pillar Technologies Driving Smart Farming

Autonomous and Robotic

Reducing human efforts with automation is a growing trend and with how labor-intensive farming is, it makes sense to automate recursive and standardized tasks. As smart equipment becomes possible, the agriculture sector goes to ascertain things like driverless tractors, precision seeder machines, and automatic smart water irrigation systems that use IoT sensors and data information to get the job done. On the other hand, several robotic prototypes are being tested to navigate through crop fields and perform tasks such as weeding, pest control, and plant maintenance through the use of machine learning and artificial intelligence. Engineers are currently working on robotic components that will be able to complete advanced tasks such as picking fruit off trees and identifying food ripeness.

Drones for Imaging & Planting

With the innovations in imaging technologies, farmers are no longer limited to taking bird’s eye pictures of their farm in visible light nor are they required to only take still photographs. Farmers are now ready to take photographs in infrared, hyperspectral imaging, and ultraviolet imaging, to not mention video. In utilizing all of those imaging types, farmers are ready to collect more detailed data than ever before, helping them make informed decisions on assessing soil quality, planning out planting locations, and monitoring crop health. When land surveying is completed regularly, farmers are going to be ready to optimize the smart farming process.

Beyond this, farmers will soon be able to use drones to seed and plant their fields. When these drones are combined with IoT software and autonomous operation, a fleet can completely replace the need for manual efforts. Plus, with precise planting, the drones make sure that each crop is planted with ideal conditions. This can increase crop growth and supply a better crop yield. This can be taken a step further, as drones are going to be used for crop spraying applications, offering farmers the power to eliminate a labor-intensive task. How? Through the utilization of GPS, laser measurements, and ultrasonic positioning, enabling each drone to adapt their position, adjust for geography and topography, and take into consideration wind speed. If used precisely, drones can spray crops with greater accuracy and abolish surplus waste. Drones are often used for remote monitoring and field analysis. Rather than employing a small team of workers to visually check on each field, a little fleet of drones is often used. This will exterminate the time needed to get sensitive data back about each field and exterminate extra labor on healthy plants that do not need tending.

Connected Farms Using IoT based Sensors

Smart farms will have IoT Sensors embedded throughout every single stage of the farming process and as a result, on every single piece of kit used. These sensors will be able to take in data such as light levels, soil conditions, air quality, weather, & irrigation needs. This data can then be transported back to the farmer or directly integrated into the robots that autonomously respond and look out for the work needed. This can be anything from performing weeding maintenance, watering and pruning plants, harvesting crops, and collecting crops

This can go a step further with drones, which can have a bird’s eye view of plant health, soil conditions, and weather. They can generate maps that will help guide the robots getting used and help the farmers plan out what steps to require within the farming process. In this sort of smart network, not only will there be higher crop production, but there'll increase the standard of the food and the way it quickly becomes available. The information that gets generated through the smart farming process is going to be the backbone of operations because it will allow farmers to ascertain all aspects of their farm at a glance, including which fields need watering, what harvesters are doing, and which plants need attention.

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Global Farm Equipment Banking Service Market Overview, Size, Share and Trends 2020-2027

Summary - A new market study, titled “Global Farm Equipment Market Size study, by Product (Tractors, Harvesters and Others), by Application (Harvesting & Threshing, Sowing & Planting and Others) and Regional Forecasts 2020-2027” has been featured on Wise Guy Reports.

 Global Farm Equipment Market is valued approximately at USD 103.3 billion in 2019 and is anticipated to grow with a growth rate of more than 3.9% over the forecast period 2020-2027. Farm equipment are the equipment used at several stages of agriculture such as planting, sowing, land development, cultivation, harvesting, and threshing. Farm equipment includes tools such as hand trowel to fertilizers, fertilizer spreader, harrow, seeder, plow, and high-end engineered tractors. The use of automatic and semiautomatic equipment reduces the costs incurred on manpower in farm. The government support with farm loan waivers/credit finance, OEM/sales incentives to support dealer service and rental operations, contract farming and increase in farm mechanization are the few factors responsible for growth of the market over the forecast period. Further rising government initiatives for agricultural growth and increasing advancements in agriculture sector are the driving factor responsible for the growth of the market over the forecast period. According to Department of Agriculture, Cooperation & Farmers Welfare, in 2018, Indian Government initiated Micro Irrigation Fund created with National Bank for Agriculture and Rural Development (NABARD) with an initial corpus of Rs. 5000 crore or USD 66.67 million (Rs. 2000 crore for 2018-19 & Rs. 3000 crores for 2019-20) for encouraging public and private investments in Micro irrigation. Also, Pradhan Mantri Samman Nidhi Yojana was introduced, goal of providing a minimum fixed pension of Rs 3000 (US$ 42.92) to the eligible small and marginal farmers, subject to certain exclusion clauses, on attaining the age of 60 years, under the Union Budget 2019-20. U.S. Department of Agriculture (USDA) provides direct and guaranteed farm ownership and operating loans to family-size farmers and ranchers, who are unable to obtain commercial credit from a bank, Farm Credit System institution, or other lender. Thus, government initiatives for agricultural growth will create a lucrative demand for the market. However, the growth of the rental market and high cost of equipment in emerging economies is the major factor restraining the growth of global Farm Equipment market during the forecast period.

ALSO READ: https://www.einpresswire.com/article/527950889/global-farm-equipment-market-2020-industry-analysis-share-growth-sales-trends-supply-forecast-2027

 The regional analysis of global Farm Equipment market is considered for the key regions such as Asia Pacific, North America, Europe, Latin America and Rest of the World. Asia Pacific is the leading/significant region across the world in terms of market share owing to the the fast adoption of new technology, growing demand for high-powered tractors, growing horticulture industry and financial incentives by the government.

 Major market player included in this report are:

John Deere

CNH Industrial N.V.

Mahindra & Mahindra Limited

AGCO Corporation

Kubota Corporation

CLAAS KGAA

Iseki & Co., Ltd.

JCB

SDF Group

Yanmar Co., Ltd.

 The objective of the study is to define market sizes of different segments & countries in recent years and to forecast the values to the coming eight years. The report is designed to incorporate both qualitative and quantitative aspects of the industry within each of the regions and countries involved in the study. Furthermore, the report also caters the detailed information about the crucial aspects such as driving factors & challenges which will define the future growth of the market. Additionally, the report shall also incorporate available opportunities in micro markets for stakeholders to invest along with the detailed analysis of competitive landscape and product offerings of key players. The detailed segments and sub-segment of the market are explained below:

 By Product:

Tractors

Harvesters

Others

 By Application:

Harvesting & Threshing

Sowing & Planting

Others

 By Region:

North America

U.S.

Canada

Europe

UK

Germany

France

Spain

Italy

ROE

 Asia Pacific

China

India

Japan

Australia

South Korea

RoAPAC

Latin America

Brazil

Mexico

Rest of the World

 Furthermore, years considered for the study are as follows:

 Historical year – 2017, 2018

Base year – 2019

Forecast period – 2020 to 2027

 Target Audience of the Global Farm Equipment Market in Market Study:

 Key Consulting Companies & Advisors

Large, medium-sized, and small enterprises

Venture capitalists

Value-Added Resellers (VARs)

Third-party knowledge providers

Investment bankers

Investors

FOR MORE DETAILS: https://www.wiseguyreports.com/reports/5908815-global-farm-equipment-market-size-study-by-product  

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How Smart Farming Will Answer The Need for Increased Food Production

As the world’s population continues to rise year after year, the area of land available for agriculture is on the decline. According to a Scientific Foresight Study on precision agriculture and the future of farming, the area for agriculture production has decreased by 0.7% since 2013. With the United Nations projecting that there will be 9.7 billion people on Earth by 2050, the agriculture industry will need to increase its productivity by at least 70% in order to keep up with the demand.

In order to do this without placing any burden on the environment and contributing to changes in seasonal events, climate change, and the world’s freshwater supply, the solution at hand is through precision agriculture, also known as “Smart Farming” – leveraging multiple technologies like Internet of Things (IoT), Artificial Intelligence, etc.

What Is Smart Farming and What Is Needed For It?

Precision agriculture or smart farming involves the integration of advanced technologies into existing farm architecture. IoT based solutions and services are in demand now leveraging IoT app development services for Smart farming in order to increase the production quality of agricultural products and the efficiency at which products are produced. Smart farming is considered a management concept or a way to address the challenges that the food industry is experiencing, such as population growth, labor issues, and climate change.

Fortunately, just about every aspect of farming can benefit from the technological advancements that our industrial revolution has spurred on. For instance, smart farming will be able to increase the effectiveness of pesticide and fertilizer use in a selective manner, it can provide farmers the ability to monitor individual needs of all animals, it can help prevent disease and increased herd health, and it can even allow farmers to monitor crop health and speed up harvest time. Currently, there are three agricultural technologies that are expected to become the pillars of the industry, autonomous robots, drones or UAVs, and the IoT sensors based farming solutions. Before we jump into these, however, let’s take a look at what is needed for smart farming.

What Do You Need to Get Smart Farming Up and Off the Ground?

As with all innovations, both knowledge and capital is required but more so than anything else, the farmer needs to have the passion and professional skill set in order to work the technologies being implemented. Beyond this, the farm or group of farmers need to be able to have a legal expert on board in order to maneuver through the growing maze of regulations that are being put in place as smart farming becomes popularized. Other than this, smart farming requires capital investment; luckily there are several low-cost options available like using custom mobile application development to track livestock and plant health. The benefit to these low-cost options is that they are easily scalable and generally easy to implement.

Read more on: Cost to Develop IoT Powered Proof of Concept (PoC) Solution for Smart Farming

Three Pillar Technologies Driving Smart Farming

1) Autonomous and Robotic Labor

Replacing human labor with automation is a growing trend and with how labor intensive farming is, it makes sense to automate repetitive and standardized tasks. As smart equipment becomes possible, the agriculture sector is going to see things like driverless tractors, precision seeder machines, and automatic smart water irrigation systems that use IoT sensors and data information to get the job done. Beyond this, several robotic prototypes are being tested to navigate through crop fields and perform tasks such as weeding, pest control, and plant maintenance through the use of machine learning and artificial intelligence. Finally, engineers are currently working on robotic components that will be able to complete sophisticated tasks such as picking fruit off trees and identifying food ripeness.

You may like to Read: IoT based Smart Plant Solution to Ensure Optimum Health

2) Drones for Imaging & Planting

With the advancement in imaging technologies, farmers are no longer limited to taking bird’s eye pictures of their farm in visible light nor are they required to only take still photographs. Farmers are now able to take photographs in infrared, hyperspectral imaging, and ultraviolet imaging, not to mention video. In utilizing all of these imaging types, farmers are able to collect more detailed data than ever before, helping them make informed decisions on assessing soil quality, planning out planting locations, and monitoring crop health. When land surveying is done regularly, farmers will be able to optimize the smart farming process.

Beyond this though, farmers will soon be able to use drones to seed and plant their fields. When these drones are combined with IoT software and autonomous operation, a fleet can completely replace the need for manual labor. Plus, with precise planting, the drones ensure that each crop is planted with ideal conditions. This can increase crop growth and provide a higher crop yield. This can be taken a step further, as drones will be used for crop spraying applications, offering farmers the ability to eliminate a labor-intensive task. How? Through the use of GPS, laser measurements, and ultrasonic positioning, enabling each drone to adapt their position, adjust for geography and topography, and take into account wind speed. If used correctly, drones can spray crops with greater accuracy and eliminate excess waste.

Finally, drones can be used for remote monitoring and field analysis. Rather than using a small team of workers to visually check on each field, a small fleet of drones can be used. This will eliminate the time needed to get sensitive data back about each field and eliminate extra labor on healthy plants that do not need tending.

3) Connected Farms Using IoT based Sensors

Despite the fact that IoT technology has been a bit of a catch-term used for the idea of having computers, machines, and devices connected to one another and able to communicate and exchange data, the term does apply here with smart farming. Smart farms will have IoT Sensors embedded throughout every single stage of the farming process and as a result, on every single piece of equipment used. These sensors will be able to take in data such as light levels, soil conditions, air quality, weather, & irrigation needs. This data can then be transported back to the farmer or directly integrated into the robots that autonomously respond and take care of the work needed. This can be anything from performing weeding maintenance, watering and pruning plants, harvesting crops, and collecting crop and animal data.

This can go a step further with drones, which will have a bird’s eye view of plant health, soil conditions, and weather. They can generate maps that will help guide the robots being used and help the farmers’ plan out what steps to take in the farming process. In this type of smart network, not only will there be higher crop production, but there will increase the quality of the food and how quickly it becomes available. The information that gets generated through the smart farming process will be the backbone of operations as it will allow farmers to see all aspects of their farm at a glance, including which fields need watering, what harvesters are doing and which animals and plants need attention.

Smart Farming is In Its Infancy But is Inevitable

As helpful smart farming will be to the agricultural sector, there are still a lot of hurdles that have to be overcome before it becomes a widespread IoT based farming solution. However, despite its infancy, precision farming is definitely inevitable as our advancement in technologies will make it possible, it’s just about raising the capital to fund the innovations needed to get the technology running in real-time rather than being just an idea on paper.

If you want to know more about IoT solutions for farming, get in touch with our IoT experts now.

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Rise In Adoption Of Technology-Driven Equipment And Machinery Will Game changer For Agriculture Equipment Market

San Francisco, 03 June 2019 - The global agriculture equipment market size is expected to reach USD 244.2 billion by 2025, expanding at a CAGR of 8.9% from 2019 to 2025, according to a study conducted by Grand View Research, Inc. Rising population has escalated demand for food and has pressurized the agriculture sector to be increasingly efficient and productive. Additionally, increased mechanization in the agriculture sector, rise in demand for agricultural products, and need for profitability and operational efficiency are some of the factors anticipated to drive the agricultural machinery market demand over the forecast period.

Rise in adoption of technology-driven equipment and machinery such as robotics is also anticipated to drive the farm machinery market demand over the forecast years. Farmers in developed regions are adopting modern technologies such as drones, moisture sensors, GPS enabled devices, self-driving tractors, smart irrigation, and terrain contour mapping to increase farm yield and address soaring food demand. Such technological advancements are fueling the espousal of farm equipment across the globe.

The farm machinery market is also estimated to be driven by increasing sales in developing nations such as India, China, and Brazil, as these countries continue to mechanize their agricultural sectors. Furthermore, strong economic growth and population expansion are expected to impose pressure on the agriculture sectors to be more competent, thus increasing sales.On the down side, high cost of agricultural machinery and financial crisis faced by farmers are some of the major challenges hindering market growth.

The agriculture equipment market is highly competitive and fragmented owing to the presence of few prominent players, along with several medium- and small-scale players accounting for the market share. The key players in the market include John Deere, AGCO, Mahindra & Mahindra, CNH Industrial N.V., Iseki & Co., Ltd., and Kubota.

Several leading vendors are investing in R&D in order to develop innovative equipment and maintain a strong foothold in the market. For instance, in April 2017, Mahindra & Mahindra Limited launched its 24hp 4WD small tractor. It has been available in the Indian market since April 2017. The tractor caters to row cropping and horticulture applications, is capable of lifting up to 750 kg, and is equipped with automatic depth & draft control (ADDC) features.

To request a sample copy or view summary of this report, click the link below: www.grandviewresearch.com/industry-analysis/agriculture-equipment-market

Further key findings from the study suggest:

The global agricultural equipment market is expected to register a CAGR of 8.9% from 2019 to 2025, due to technological advancements in agriculture automation and robotics as well as ever-increasing population

Growing number of government initiatives in developing countries, especially China and India, to enhance agricultural productivity is expected to further spur sale of farm equipment over the forecast period

By product, the tractors segment held the dominant share of over 25.0% in 2018, which is accredited to the fact that farmers are increasingly preferring tractors to increase production and restrict dependency on farm labor

On the basis of application, the harvesting and threshing segment is anticipated to witness significant growth over the forecast period and is expected to exceed a CAGR of 10.0% from 2019 to 2025

The Asia Pacific market is projected to expand at a CAGR of over 9.0%, owing to its existing and improving infrastructure levels, alternative sales channels, and government support

Key players in the market include John Deere, AGCO, Mahindra & Mahindra, CNH Industrial N.V., Iseki & Co., Ltd., and Kubota.

Grand View Research has segmented the global agriculture equipment market based on product, application, and region: Agriculture Equipment Product Outlook (Revenue, USD Billion, 2014 - 2025)

Tractors

Harvesters

Planting Equipment

Irrigation & Crop Processing Equipment

Spraying Equipment

Hay & Forage Equipment

Others

Row Crop Planters

Air Seeders

Grain Drills

Others

Agriculture Equipment Application Outlook (Revenue, USD Billion, 2014 - 2025)

Land Development & Seed Bed Preparation

Sowing & Planting

Weed Cultivation

Plant Protection

Harvesting & Threshing

Post-harvest & Agro Processing

Agriculture Equipment Regional Outlook (Revenue, USD Billion, 2014–2025)

North America

US.

Canada

Europe

UK.

Germany

France

Italy

Netherlands

Spain

Denmark

Russia

Asia Pacific

China

India

Japan

Singapore

South Korea

Taiwan

Australia

Latin America

Brazil

Mexico

Argentina

Middle East & Africa

UAE

Saudi Arabia

South Africa

Access Official Press Release Of This Report: www.grandviewresearch.com/press-release/agriculture-farm-equipment-machinery-market

About Grand View Research

Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials and healthcare.

For More Information: www.grandviewresearch.com

Global Planting Equipment Market 2017 to 2022

16-Jan-2018

The report is based on the market historical data from 2012 to 2016 and forecast the market trend from 2017 to 2022.

This report focuses on the U.S. market and presents volume and value of market share by players, by regions, by product type, by consumers and also changes in prices. As an in-depth report, it covers all details inside analysis and opinions in Planting Equipment industry.

Major Companies

Deere & Company (U.S.)

AGCO Corporation (U.S.)

Buhler Industries, Inc. (Canada)

Kinze Manufacturing, Inc. (U.S.)

Case IH Agricultural Equipment, Inc. (U.S.)

Bourgault Industries Ltd. (Canada)

Seed Hawk Inc. (Canada)

Key Regions

North America

United States

California

Texas

New York

Others

Canada

Latin America

Mexico

Brazil

Argentina

Request a Sample Copy of This Report: https://www.radiantinsights.com/research/global-and-united-states-planting-equipment-in-depth-research-report-2017-2022/request-sample

Main types of products

Planting Equipment Market, by Equipment Type

Air seeders

Seed drills

Planters

Transplant

Others

Planting Equipment Market, by Design

Mechanical

Automatic

Planting Equipment Market, by Key Consumers

Cereals & grains

Oilseeds & pulses

Fruits & vegetables

Turf

Others

Table of Contents

Global and United States Planting Equipment In-Depth Research Report 2017-2022

Chapter One Global Planting Equipment Market Overview

1.1 Global Planting Equipment Market Sales Volume Revenue and Price 2012-2017

1.2 Planting Equipment, by Equipment Type 2012-2017

1.2.1 Global Planting Equipment Sales Market Share by Equipment Type 2012-2017

1.2.2 Global Planting Equipment Revenue Market Share by Equipment Type 2012-2017

1.2.3 Global Planting Equipment Price by Equipment Type 2012-2017

1.2.4 Air seeders

1.2.5 Seed drills

1.2.6 Planters

1.2.7 Transplant

1.2.8 Others

1.3 Planting Equipment, by Design 2012-2017

1.3.1 Global Planting Equipment Sales Market Share by Design 2012-2017

1.3.2 Global Planting Equipment Revenue Market Share by Design 2012-2017

1.3.3 Global Planting Equipment Price by Design 2012-2017

1.3.4 Mechanical

1.3.5 Automatic

Browse Full Research Report With TOC:

https://www.radiantinsights.com/research/global-and-united-states-planting-equipment-in-depth-research-report-2017-2022

Planting Equipment Market Restraint and Industry Analysis to 2022

The report is based on the market historical data from 2012 to 2016 and forecast the market trend from 2017 to 2022. This report focuses on the U.S. market and presents volume and value of market share by players, by regions, by product type, by consumers and also changes in prices. As an in-depth report, it covers all details inside analysis and opinions in Planting Equipment industry.

Major Companies

Deere & Company (U.S.)

AGCO Corporation (U.S.)

Buhler Industries, Inc. (Canada)

Kinze Manufacturing, Inc. (U.S.)

Case IH Agricultural Equipment, Inc. (U.S.)

Bourgault Industries Ltd. (Canada)

Seed Hawk Inc. (Canada)

SeedMaster Manufacturing Ltd. (Canada)

Browse Detail Report With TOC @ http://www.hexareports.com/report/global-and-united-states-planting-equipment-in-depth-research-report-2017-2022

Key Regions

North America

United States

Canada

Europe

Germany

United Kingdom

France

Italy

Spain

Russia

Asia & Pacific

China

Japan

India

Request A Sample copy of This Report @ http://www.hexareports.com/report/global-and-united-states-planting-equipment-in-depth-research-report-2017-2022/request-sample

Main types of products

Planting Equipment Market, by Equipment Type

Air seeders

Seed drills

Planters

Transplant

Others

Planting Equipment Market, by Design

Mechanical

Automatic

Planting Equipment Market, by Key Consumers

Cereals & grains

Oilseeds & pulses

Fruits & vegetables

Turf

For More Details Visit @ Hexa Reports