Global soil water moisture sensors market is expected to grow at a CAGR of 5.5% during the forecast period, 2021-2030. The global soil water moisture sensors market is projected to reach USD 1,890 million by 2030 from USD 1,200 million in 2018. The global soil water moisture sensors market is segmented on the basis of type into volumetric and potential; by application into agriculture, landscaping, residential, forestry sports turf construction and mining research; and by region into North America Latin America Europe Asia Pacific Middle East & Africa. The volumetric segment accounted for the largest share of the global soil water moisture sensor market in 2018 owing to its high accuracy level as compared to other types of sensors. Agriculture application accounted for the largest share of the global soil water moisture sensor market in 2018 owing to its high demand from farmers across various regions globally. North America was estimated as one of the fastest growing markets for this product due to increasing awareness about environmental sustainability among consumers coupled with government initiatives such as Farm Bill which has been passed recently in US, which will provide financial assistance for farmers who adopt sustainable farming practices such as conservation tillage or no-till farming methods that conserve natural resources like land and reduce greenhouse gas emissions.
Some Of The Growth Factors Of This Market:
- Soil water moisture sensors are used in agriculture to monitor the soil moisture content and to determine when irrigation is needed.
- The demand for soil water moisture sensors is expected to increase due to the increasing population and climate change, which will lead to a higher demand for food production.
- The cost of these sensors has been decreasing over time, which will lead to an increased adoption rate of these devices in developing countries where they are not as readily available as they are in developed countries.
- There is a lack of awareness about the benefits of using soil water moisture sensors among farmers, which could be due to lack of knowledge or access, leading them not use this technology even if it would benefit their crops and save them money on irrigation costs by only watering when necessary instead of watering every day or every few days unnecessarily just because it's been awhile since they last watered their crops.
- There is a need for more research on how different types of soils react differently with different types of sensor technologies so that farmers can make better decisions about what type would work best for their specific needs.
Industry Growth Insights published a new data on “Soil Water Moisture Sensors Market”. The research report is titled “Soil Water Moisture Sensors Market research by Types (Soil Water Potential, Volumetric, , If you need an understanding of plant-available water, plant water stress, or water movement (if water will move and where it will go), a water potential soil sensor is required in addition to a soil moisture sensor. Water potential is a measure of the energy state of the water in the soil, or in other words, how tightly water is bound to soil surfaces. This tension determines whether or not water is available for uptake by roots and provides a range that tells whether or not water will be available for plant growth. In addition, water always moves from a high water potential to a low water potential, thus researchers can use water potential to understand and predict the dynamics of water movement., If you want to measure the rise and fall of the amount (or percentage) of water in the soil, you will need a water content sensor (soil moisture sensor). Soil is made up of water, air, minerals, organic matter, and sometimes ice. As a component, water makes up a percentage of the total. To directly measure soil water content, you can calculate the percentage on a mass basis (gravimetric water content) by comparing the amount of water, as a mass, to the total mass of everything else. However, since this method is labor-intensive, most researchers use soil moisture sensors to make an automated volume-based measurement called volumetric water content (VWC). Volumetric Soil Moisture Sensor are primarily used for measuring the water content of the soil referencing with dielectric constant, electrical resistance or interaction with neutrons. These devices enable the users to make a reliable and accurate soil moisture measurements, thus making it ideal for applications related to soil science, environmental science, agricultural science, horticulture, biology, botany, and others.), By Applications (Agriculture, Landscaping, Residential, Forestry, Sports Turf, Construction and Mining, Research, Others), By Players/Companies The Toro Company, Rainbird, Campbell Scientific, Meter Group, Gardena (Husqvarna), Davis Instruments, Vernier, IMKO (Endress+Hauser), Dynamax, Irrometer, Delta-T Devices, Stevens Water, Vegetronix, Acclima”.
Scope Of The Report
Report Attributes
Report Details
Report Title
Soil Water Moisture Sensors Market Research Report
By Type
Soil Water Potential, Volumetric, , If you need an understanding of plant-available water, plant water stress, or water movement (if water will move and where it will go), a water potential soil sensor is required in addition to a soil moisture sensor. Water potential is a measure of the energy state of the water in the soil, or in other words, how tightly water is bound to soil surfaces. This tension determines whether or not water is available for uptake by roots and provides a range that tells whether or not water will be available for plant growth. In addition, water always moves from a high water potential to a low water potential, thus researchers can use water potential to understand and predict the dynamics of water movement., If you want to measure the rise and fall of the amount (or percentage) of water in the soil, you will need a water content sensor (soil moisture sensor). Soil is made up of water, air, minerals, organic matter, and sometimes ice. As a component, water makes up a percentage of the total. To directly measure soil water content, you can calculate the percentage on a mass basis (gravimetric water content) by comparing the amount of water, as a mass, to the total mass of everything else. However, since this method is labor-intensive, most researchers use soil moisture sensors to make an automated volume-based measurement called volumetric water content (VWC). Volumetric Soil Moisture Sensor are primarily used for measuring the water content of the soil referencing with dielectric constant, electrical resistance or interaction with neutrons. These devices enable the users to make a reliable and accurate soil moisture measurements, thus making it ideal for applications related to soil science, environmental science, agricultural science, horticulture, biology, botany, and others.
By Application
Agriculture, Landscaping, Residential, Forestry, Sports Turf, Construction and Mining, Research, Others
By Companies
The Toro Company, Rainbird, Campbell Scientific, Meter Group, Gardena (Husqvarna), Davis Instruments, Vernier, IMKO (Endress+Hauser), Dynamax, Irrometer, Delta-T Devices, Stevens Water, Vegetronix, Acclima
Regions Covered
North America, Europe, APAC, Latin America, MEA
Base Year
2021
Historical Year
2019 to 2020 (Data from 2010 can be provided as per availability)
Forecast Year
2030
Number of Pages
233
Number of Tables & Figures
164
Customization Available
Yes, the report can be customized as per your need.
Global Soil Water Moisture Sensors Market Report Segments:
The global Soil Water Moisture Sensors market is segmented on the basis of:
Types
Soil Water Potential, Volumetric, , If you need an understanding of plant-available water, plant water stress, or water movement (if water will move and where it will go), a water potential soil sensor is required in addition to a soil moisture sensor. Water potential is a measure of the energy state of the water in the soil, or in other words, how tightly water is bound to soil surfaces. This tension determines whether or not water is available for uptake by roots and provides a range that tells whether or not water will be available for plant growth. In addition, water always moves from a high water potential to a low water potential, thus researchers can use water potential to understand and predict the dynamics of water movement., If you want to measure the rise and fall of the amount (or percentage) of water in the soil, you will need a water content sensor (soil moisture sensor). Soil is made up of water, air, minerals, organic matter, and sometimes ice. As a component, water makes up a percentage of the total. To directly measure soil water content, you can calculate the percentage on a mass basis (gravimetric water content) by comparing the amount of water, as a mass, to the total mass of everything else. However, since this method is labor-intensive, most researchers use soil moisture sensors to make an automated volume-based measurement called volumetric water content (VWC). Volumetric Soil Moisture Sensor are primarily used for measuring the water content of the soil referencing with dielectric constant, electrical resistance or interaction with neutrons. These devices enable the users to make a reliable and accurate soil moisture measurements, thus making it ideal for applications related to soil science, environmental science, agricultural science, horticulture, biology, botany, and others.
The product segment provides information about the market share of each product and the respective CAGR during the forecast period. It lays out information about the product pricing parameters, trends, and profits that provides in-depth insights of the market. Furthermore, it discusses latest product developments & innovation in the market.
Applications
Agriculture, Landscaping, Residential, Forestry, Sports Turf, Construction and Mining, Research, Others
The application segment fragments various applications of the product and provides information on the market share and growth rate of each application segment. It discusses the potential future applications of the products and driving and restraining factors of each application segment.
Some of the companies that are profiled in this report are:
- The Toro Company
- Rainbird
- Campbell Scientific
- Meter Group
- Gardena (Husqvarna)
- Davis Instruments
- Vernier
- IMKO (Endress+Hauser)
- Dynamax
- Irrometer
- Delta-T Devices
- Stevens Water
- Vegetronix
- Acclima
Highlights of The Soil Water Moisture Sensors Market Report:
- The market structure and projections for the coming years.
- Drivers, restraints, opportunities, and current trends of market.
- Historical data and forecast.
- Estimations for the forecast period 2030.
- Developments and trends in the market.
- By Type:
- Soil Water Potential
- Volumetric
- If you need an understanding of plant-available water, plant water stress, or water movement (if water will move and where it will go), a water potential soil sensor is required in addition to a soil moisture sensor. Water potential is a measure of the energy state of the water in the soil, or in other words, how tightly water is bound to soil surfaces. This tension determines whether or not water is available for uptake by roots and provides a range that tells whether or not water will be available for plant growth. In addition, water always moves from a high water potential to a low water potential, thus researchers can use water potential to understand and predict the dynamics of water movement.
- If you want to measure the rise and fall of the amount (or percentage) of water in the soil, you will need a water content sensor (soil moisture sensor). Soil is made up of water, air, minerals, organic matter, and sometimes ice. As a component, water makes up a percentage of the total. To directly measure soil water content, you can calculate the percentage on a mass basis (gravimetric water content) by comparing the amount of water, as a mass, to the total mass of everything else. However, since this method is labor-intensive, most researchers use soil moisture sensors to make an automated volume-based measurement called volumetric water content (VWC). Volumetric Soil Moisture Sensor are primarily used for measuring the water content of the soil referencing with dielectric constant, electrical resistance or interaction with neutrons. These devices enable the users to make a reliable and accurate soil moisture measurements, thus making it ideal for applications related to soil science, environmental science, agricultural science, horticulture, biology, botany, and others.
- By Application:
- Agriculture
- Landscaping
- Residential
- Forestry
- Sports Turf
- Construction and Mining
- Research
- Others
- Market scenario by region, sub-region, and country.
- Market share of the market players, company profiles, product specifications, SWOT analysis, and competitive landscape.
- Analysis regarding upstream raw materials, downstream demand, and current market dynamics.
- Government Policies, Macro & Micro economic factors are also included in the report.
We have studied the Soil Water Moisture Sensors Market in 360 degrees via. both primary & secondary research methodologies. This helped us in building an understanding of the current market dynamics, supply-demand gap, pricing trends, product preferences, consumer patterns & so on. The findings were further validated through primary research with industry experts & opinion leaders across countries. The data is further compiled & validated through various market estimation & data validation methodologies. Further, we also have our in-house data forecasting model to predict market growth up to 2030.
Regional Analysis
- North America
- Europe
- Asia Pacific
- Middle East & Africa
- Latin America
Note: A country of choice can be added in the report at no extra cost. If more than one country needs to be added, the research quote will vary accordingly.
The geographical analysis part of the report provides information about the product sales in terms of volume and revenue in regions. It lays out potential opportunities for the new entrants, emerging players, and major players in the region. The regional analysis is done after considering the socio-economic factors and government regulations of the countries in the regions.
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- Includes a Chapter on the Impact of COVID-19 Pandemic On the Market
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- Customization of the Report Available
Frequently Asked Questions?
Soil water moisture sensors are used to measure the moisture content of soil. They can be used to monitor the health of plants and crops, or to determine when irrigation is needed.
Some of the major companies in the soil water moisture sensors market are The Toro Company, Rainbird, Campbell Scientific, Meter Group, Gardena (Husqvarna), Davis Instruments, Vernier, IMKO (Endress+Hauser), Dynamax, Irrometer, Delta-T Devices, Stevens Water, Vegetronix, Acclima.
The soil water moisture sensors market is expected to register a CAGR of 5.5%.
1. Executive Summary
2. Assumptions and Acronyms Used
3. Research Methodology
4. Soil Water Moisture Sensors Market Overview
4.1. Introduction
4.1.1. Market Taxonomy
4.1.2. Market Definition
4.2. Macro-Economic Factors
4.2.1. Industry Outlook
4.3. Soil Water Moisture Sensors Market Dynamics
4.3.1. Market Drivers
4.3.2. Market Restraints
4.3.3. Opportunity
4.3.4. Market Trends
4.4. Soil Water Moisture Sensors Market - Supply Chain
4.5. Global Soil Water Moisture Sensors Market Forecast
4.5.1. Soil Water Moisture Sensors Market Size (US$ Mn) and Y-o-Y Growth
4.5.2. Soil Water Moisture Sensors Market Size (000 Units) and Y-o-Y Growth
4.5.3. Soil Water Moisture Sensors Market Absolute $ Opportunity
5. Global Soil Water Moisture Sensors Market Analysis and Forecast by Type
5.1. Market Trends
5.2. Introduction
5.2.1. Basis Point Share (BPS) Analysis by Type
5.2.2. Y-o-Y Growth Projections by Type
5.3. Soil Water Moisture Sensors Market Size and Volume Forecast by Type
5.3.1. Soil Water Potential
5.3.2. Volumetric
5.3.4. If you need an understanding of plant-available water, plant water stress, or water movement (if water will move and where it will go), a water potential soil sensor is required in addition to a soil moisture sensor. Water potential is a measure of the energy state of the water in the soil, or in other words, how tightly water is bound to soil surfaces. This tension determines whether or not water is available for uptake by roots and provides a range that tells whether or not water will be available for plant growth. In addition, water always moves from a high water potential to a low water potential, thus researchers can use water potential to understand and predict the dynamics of water movement.
5.3.5. If you want to measure the rise and fall of the amount (or percentage) of water in the soil, you will need a water content sensor (soil moisture sensor). Soil is made up of water, air, minerals, organic matter, and sometimes ice. As a component, water makes up a percentage of the total. To directly measure soil water content, you can calculate the percentage on a mass basis (gravimetric water content) by comparing the amount of water, as a mass, to the total mass of everything else. However, since this method is labor-intensive, most researchers use soil moisture sensors to make an automated volume-based measurement called volumetric water content (VWC). Volumetric Soil Moisture Sensor are primarily used for measuring the water content of the soil referencing with dielectric constant, electrical resistance or interaction with neutrons. These devices enable the users to make a reliable and accurate soil moisture measurements, thus making it ideal for applications related to soil science, environmental science, agricultural science, horticulture, biology, botany, and others.
5.4. Absolute $ Opportunity Assessment by Type
5.5. Market Attractiveness/Growth Potential Analysis by Type
6. Global Soil Water Moisture Sensors Market Analysis and Forecast by Application
6.1. Market Trends
6.2. Introduction
6.2.1. Basis Point Share (BPS) Analysis by Application
6.2.2. Y-o-Y Growth Projections by Application
6.3. Soil Water Moisture Sensors Market Size and Volume Forecast by Application
6.3.1. Agriculture
6.3.2. Landscaping
6.3.3. Residential
6.3.4. Forestry
6.3.5. Sports Turf
6.3.6. Construction and Mining
6.3.7. Research
6.3.8. Others
6.4. Absolute $ Opportunity Assessment by Application
6.5. Market Attractiveness/Growth Potential Analysis by Application
7. Global Soil Water Moisture Sensors Market Analysis and Forecast by Sales Channel
7.1. Market Trends
7.2. Introduction
7.2.1. Basis Point Share (BPS) Analysis by Sales Channel
7.2.2. Y-o-Y Growth Projections by Sales Channel
7.3. Soil Water Moisture Sensors Market Size and Volume Forecast by Sales Channel
7.3.1. Manufacturer/Distributor/Service Provider
7.3.2. Aftermarket
7.4. Absolute $ Opportunity Assessment by Sales Channel
7.5. Market Attractiveness/Growth Potential Analysis by Sales Channel
8. Global Soil Water Moisture Sensors Market Analysis and Forecast by Region
8.1. Market Trends
8.2. Introduction
8.2.1. Basis Point Share (BPS) Analysis by Region
8.2.2. Y-o-Y Growth Projections by Region
8.3. Soil Water Moisture Sensors Market Size and Volume Forecast by Region
8.3.1. North America
8.3.2. Latin America
8.3.3. Europe
8.3.4. Asia Pacific
8.3.5. Middle East and Africa (MEA)
8.4. Absolute $ Opportunity Assessment by Region
8.5. Market Attractiveness/Growth Potential Analysis by Region
8.6. Global Soil Water Moisture Sensors Demand Share Forecast, 2019-2026
9. North America Soil Water Moisture Sensors Market Analysis and Forecast
9.1. Introduction
9.1.1. Basis Point Share (BPS) Analysis by Country
9.1.2. Y-o-Y Growth Projections by Country
9.2. North America Soil Water Moisture Sensors Market Size and Volume Forecast by Country
9.2.1. U.S.
9.2.2. Canada
9.3. Absolute $ Opportunity Assessment by Country
9.4. North America Soil Water Moisture Sensors Market Size and Volume Forecast by Application
9.4.1. Agriculture
9.4.2. Landscaping
9.4.3. Residential
9.4.4. Forestry
9.4.5. Sports Turf
9.4.6. Construction and Mining
9.4.7. Research
9.4.8. Others
9.5. Basis Point Share (BPS) Analysis by Application
9.6. Y-o-Y Growth Projections by Application
9.7. North America Soil Water Moisture Sensors Market Size and Volume Forecast by Type
9.7.1. Soil Water Potential
9.7.2. Volumetric
9.7.4. If you need an understanding of plant-available water, plant water stress, or water movement (if water will move and where it will go), a water potential soil sensor is required in addition to a soil moisture sensor. Water potential is a measure of the energy state of the water in the soil, or in other words, how tightly water is bound to soil surfaces. This tension determines whether or not water is available for uptake by roots and provides a range that tells whether or not water will be available for plant growth. In addition, water always moves from a high water potential to a low water potential, thus researchers can use water potential to understand and predict the dynamics of water movement.
9.7.5. If you want to measure the rise and fall of the amount (or percentage) of water in the soil, you will need a water content sensor (soil moisture sensor). Soil is made up of water, air, minerals, organic matter, and sometimes ice. As a component, water makes up a percentage of the total. To directly measure soil water content, you can calculate the percentage on a mass basis (gravimetric water content) by comparing the amount of water, as a mass, to the total mass of everything else. However, since this method is labor-intensive, most researchers use soil moisture sensors to make an automated volume-based measurement called volumetric water content (VWC). Volumetric Soil Moisture Sensor are primarily used for measuring the water content of the soil referencing with dielectric constant, electrical resistance or interaction with neutrons. These devices enable the users to make a reliable and accurate soil moisture measurements, thus making it ideal for applications related to soil science, environmental science, agricultural science, horticulture, biology, botany, and others.
9.8. Basis Point Share (BPS) Analysis by Type
9.9. Y-o-Y Growth Projections by Type
9.10. Market Attractiveness/Growth Potential Analysis
9.10.1. By Country
9.10.2. By Product Type
9.10.3. By Application
9.10.4. By Sales Channel
9.11. North America Soil Water Moisture Sensors Demand Share Forecast, 2019-2026
10. Latin America Soil Water Moisture Sensors Market Analysis and Forecast
10.1. Introduction
10.1.1. Basis Point Share (BPS) Analysis by Country
10.1.2. Y-o-Y Growth Projections by Country
10.1.3. Latin America Average Pricing Analysis
10.2. Latin America Soil Water Moisture Sensors Market Size and Volume Forecast by Country
10.2.1. Brazil
10.2.2. Mexico
10.2.3. Rest of Latin America
10.3. Absolute $ Opportunity Assessment by Country
10.4. Latin America Soil Water Moisture Sensors Market Size and Volume Forecast by Application
10.4.1. Agriculture
10.4.2. Landscaping
10.4.3. Residential
10.4.4. Forestry
10.4.5. Sports Turf
10.4.6. Construction and Mining
10.4.7. Research
10.4.8. Others
10.4.9. APPLICATION9
10.4.10. APPLICATION 10
10.5. Basis Point Share (BPS) Analysis by Application
10.6. Y-o-Y Growth Projections by Application
10.7. Latin America Soil Water Moisture Sensors Market Size and Volume Forecast by Type
10.7.1. Soil Water Potential
10.7.2. Volumetric
10.7.4. If you need an understanding of plant-available water, plant water stress, or water movement (if water will move and where it will go), a water potential soil sensor is required in addition to a soil moisture sensor. Water potential is a measure of the energy state of the water in the soil, or in other words, how tightly water is bound to soil surfaces. This tension determines whether or not water is available for uptake by roots and provides a range that tells whether or not water will be available for plant growth. In addition, water always moves from a high water potential to a low water potential, thus researchers can use water potential to understand and predict the dynamics of water movement.
10.7.5. If you want to measure the rise and fall of the amount (or percentage) of water in the soil, you will need a water content sensor (soil moisture sensor). Soil is made up of water, air, minerals, organic matter, and sometimes ice. As a component, water makes up a percentage of the total. To directly measure soil water content, you can calculate the percentage on a mass basis (gravimetric water content) by comparing the amount of water, as a mass, to the total mass of everything else. However, since this method is labor-intensive, most researchers use soil moisture sensors to make an automated volume-based measurement called volumetric water content (VWC). Volumetric Soil Moisture Sensor are primarily used for measuring the water content of the soil referencing with dielectric constant, electrical resistance or interaction with neutrons. These devices enable the users to make a reliable and accurate soil moisture measurements, thus making it ideal for applications related to soil science, environmental science, agricultural science, horticulture, biology, botany, and others.
10.7.6. TYPE6
10.7.7. TYPE7
10.7.8. TYPE8
10.7.9. TYPE9
10.7.10. TYPE 10
10.8. Basis Point Share (BPS) Analysis by Type
10.9. Y-o-Y Growth Projections by Type
10.10. Market Attractiveness/Growth Potential Analysis
10.10.1. By Country
10.10.2. By Product Type
10.10.3. By Application
10.10.4. By Sales Channel
10.11. Latin America Soil Water Moisture Sensors Demand Share Forecast, 2019-2026
11. Europe Soil Water Moisture Sensors Market Analysis and Forecast
11.1. Introduction
11.1.1. Basis Point Share (BPS) Analysis by Country
11.1.2. Y-o-Y Growth Projections by Country
11.1.3. Europe Average Pricing Analysis
11.2. Europe Soil Water Moisture Sensors Market Size and Volume Forecast by Country
11.2.1. Germany
11.2.2. France
11.2.3. Italy
11.2.4. U.K.
11.2.5. Spain
11.2.6. Russia
11.2.7. Rest of Europe
11.3. Absolute $ Opportunity Assessment by Country
11.4. Europe Soil Water Moisture Sensors Market Size and Volume Forecast by Application
11.4.1. Agriculture
11.4.2. Landscaping
11.4.3. Residential
11.4.4. Forestry
11.4.5. Sports Turf
11.4.6. Construction and Mining
11.4.7. Research
11.4.8. Others
11.4.9. APPLICATION9
11.4.10. APPLICATION 10
11.5. Basis Point Share (BPS) Analysis by Application
11.6. Y-o-Y Growth Projections by Application
11.7. Europe Soil Water Moisture Sensors Market Size and Volume Forecast by Type
11.7.1. Soil Water Potential
11.7.2. Volumetric
11.7.4. If you need an undersanding of plant-available water, plant water stress, or water movement (if water will move and where it will go), a water potential soil sensor is required in addition to a soil moisture sensor. Water potential is a measure of the energy state of the water in the soil, or in other words, how tightly water is bound to soil surfaces. This tension determines whether or not water is available for uptake by roots and provides a range that tells whether or not water will be available for plant growth. In addition, water always moves from a high water potential to a low water potential, thus researchers can use water potential to understand and predict the dynamics of water movement.
11.7.5. If you want to measure the rise and fall of the amount (or percentage) of water in the soil, you will need a water content sensor (soil moisture sensor). Soil is made up of water, air, minerals, organic matter, and sometimes ice. As a component, water makes up a percentage of the total. To directly measure soil water content, you can calculate the percentage on a mass basis (gravimetric water content) by comparing the amount of water, as a mass, to the total mass of everything else. However, since this method is labor-intensive, most researchers use soil moisture sensors to make an automated volume-based measurement called volumetric water content (VWC). Volumetric Soil Moisture Sensor are primarily used for measuring the water content of the soil referencing with dielectric constant, electrical resistance or interaction with neutrons. These devices enable the users to make a reliable and accurate soil moisture measurements, thus making it ideal for applications related to soil science, environmental science, agricultural science, horticulture, biology, botany, and others.
11.7.6. TYPE6
11.7.7. TYPE7
11.7.8. TYPE8
11.7.9. TYPE9
11.7.10. TYPE 10
11.8. Basis Point Share (BPS) Analysis by Type
11.9. Y-o-Y Growth Projections by Type
11.10. Market Attractiveness/Growth Potential Analysis
11.10.1. By Country
11.10.2. By Product Type
11.10.3. By Application
11.10.4. By Sales Channel
11.11. Europe Soil Water Moisture Sensors Demand Share, 2019-2026
12. Asia Pacific Soil Water Moisture Sensors Market Analysis and Forecast
12.1. Introduction
12.1.1. Basis Point Share (BPS) Analysis by Country
12.1.2. Y-o-Y Growth Projections by Country
12.1.3. Asia Pacific Average Pricing Analysis
12.2. Asia Pacific Soil Water Moisture Sensors Market Size and Volume Forecast by Country
12.2.1. China
12.2.2. Japan
12.2.3. South Korea
12.2.4. India
12.2.5. Australia
12.2.6. Rest of Asia Pacific (APAC)
12.3. Absolute $ Opportunity Assessment by Country
12.4. Asia Pacific Soil Water Moisture Sensors Market Size and Volume Forecast by Application
12.4.1. Agriculture
12.4.2. Landscaping
12.4.3. Residential
12.4.4. Forestry
12.4.5. Sports Turf
12.4.6. Construction and Mining
12.4.7. Research
12.4.8. Others
12.4.9. APPLICATION9
12.4.10. APPLICATION 10
12.5. Basis Point Share (BPS) Analysis by Application
12.6. Y-o-Y Growth Projections by Application
12.7. Asia Pacific Soil Water Moisture Sensors&nb