Availability date: 02/10/2016
|The Sensor measures:||PAR Light|
Portable canopy analysis system for crops:
SunScan uses field measurements of PAR ( Photosynthetically Active Radiation ) in crop canopies to provide valuable information about Leaf Area Index (LAI) and biomass production.
It provides vital information about the penetration of PAR into crops, and is essential in work such as comparative crop studies, for separating out the effects of cultivar and treatment. It is particularly well suited to low regular canopies (as found in many agricultural crops). SunScan users don't have to wait for special weather conditions – the probe can be used in most light conditions (but best near mid-day).
The SunScan plant canopy analyzer probe consists of 64 PAR Sensors embedded in a 1 m long probe. Whenever a reading is taken, all sensors are scanned and the measurements sent to a hand-held PDA, type RPDA3, via an RS232 interface. The average PAR level from the Probe is read, but all 64 individual readings can be stored for more complete PAR mapping, or making linear transects. Automatic logging can be selected to obtain readings over a period of time at a fixed point. If connected to a data logger the Probe can function as a Linear Quantum Sensor (also known as a line quantum sensor).
The RPDA3 is an exceptionally robust handheld PDA which collects and analyses readings from the SunScan Probe. Raw readings, and derived functions such as LAI, can be displayed, reviewed and stored in the field by the SunData Software; groups of readings can be averaged if required. Readings are stored in the internal memory which holds > 1 million readings, or in widely available micro SD cards which provide removable data storage. Collected data can be transferred easily to a PC.
The SunScan’s unique feature is an optional reference sensor, integrated into the design, to measure simultaneously the direct and diffuse light above the canopy. The BF5 Sunshine Sensor provides these above-canopy reference measurements quickly and conveniently. The BF5 uses an array of photodiodes and a unique shading pattern to calculate whether the sun is shining and to measure the direct and diffuse components of solar radiation. This completely avoids the need for troublesome shade ring adjustments required with conventional diffuse light sensors.
An optional radio link connects the SunScan Probe and the BF5 reference sensor, removing the need for long connecting cables. The link operates over the 434 MHz licence-free frequency and can transmit up to 250 m line-of-sight or 100 m to 200 m in vegetation.
A 2009 paper* in the Crop Science journal compared the use of SunScan canopy analyser and LAI-2000 systems for estimating LAI on upland rice grown in Benin. The authors found that the SunScan canopy analyser provided a highly significant measurement of LAI up to 4 m2.m-2 compared to destructive sampling (slope of regression line = 1.00, R2 = 0.96) and in summary concluded that the SunScan can be used to estimate LAI of different upland rice cultivars with various types of canopy development. * Sone, C., K. Saito, and K. Futakuchi. 2009. Comparison of Three Methods for Estimating Leaf Area Index of Upland Rice Cultivars. Crop Sci. 49:1438-1443.
SunScan is ideal for analysing and characterising low regular canopies such as crops. However, for forest and woodland canopies, the Delta-T HemiView system is the correct choice.
The SunScan plant canopy analyzer system uses field measurements of Photosynthetically Active Radiation (PAR) in crop canopies to provide valuable information about Leaf Area Index (LAI) and biomass production.
|SunScan Probe type SS1|
|Active area||1 m x 13 mm wide, sensor spacing 15.6 mm|
|Spectral response||400 – 700 nm (PAR)|
|Measurement time||120 ms|
|Maximum reading||2500 µmol.m-2.s-1|
|Linearity||better than 1%|
|Analogue output||1 mV per µmol.m-2.s-1|
|Serial interface||RS232, 9 pin female ‘D’ connector|
|Environmental||IP65, 0 – 60°C working temp|
|Size & Weight||1300(l) x 100(w) x 130(h) mm, 1.7 kg|
|Power||4 x AA Alkaline cells (lifetime up to 1 year)|
|Sunshine Sensor type BF5|
|Output sensitivity total & diffuse||1 mV / µmol.m-2.s-1 PAR cosine corrected|
|Accuracy||Total ± 12% ± 10 µmol.m-2.s-1 Diffuse ± 15% ± 10 µmol.m-2.s-1|
|Temperature range||-20 to + 50 °C with alkaline batteries|
|Range||0 – 2500 µmol.m-2.s-1 (total & diffuse)|
|Spectral response||PAR (400-700 nm)|
|Power||2 x AA Alkaline cells (lifetime up to 1 year)|
|Input voltage||5 – 15 V DC (powered from SunScan)|
|Size & Weight||120 x 122 x 95 mm, 635 g|
|Rugged PDA type RPDA3|
|Operating system||Windows Mobile 6.5|
|Display options||a) LAI b) PAR average c) ALL individual sensor readings|
|Environmental||IP67, -30 °C to 60 °C, 1.2 m drop test|
|Power||Rechargeable battery, 12 h continuous use|
|Memory||> 1 million readings|
|Size & Weight||191 x 80 x 35 mm, 490 g|
Delta-T SunScan Canopy Analysis System makes fast and accurate measurements of Photosynthetically Active Radiation (PAR) in plant canopies.
It can also calculate the Leaf Area Index (LAI) and provides direct display of Fractional Interception Readings.
The explainer video below highlights the SunScan's unique features and shows how it works.
SS1-COM Complete System
This is the complete package of SunScan items, including SunScan Probe, SunData Software, PDA, BF5 Sunshine Sensor, tripod and carrying case.
The full system provides a powerful canopy analysis tool. It can instantly calculate LAI, measure PAR interception using either spot readings or unattended logging, and measure sunflecks.
SS1-COM-R4 Complete System with Radio Link
Includes a radio link between the modified SunScan Probe and BF5 Sunshine Sensor.
The radio link has a range of 100 m to 200 m and replaces the cable between the SunScan Probe and BF5 – particularly useful in taller canopies or where readings are required at widely spaced locations.
SS1-STD3 Standard System
The Standard system comprises the SunScan Probe, SunData Software and PDA.
The Standard System is able to make the full range of SunScan measurements, including LAI. The probe has to serve as its own above-canopy reference, so requires steady light conditions.