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Lamb Lamb, Bramley Bramley (2001)
Managing and monitoring spatial variability in vineyard productivityNatural Resource Management, 4
L. Haselgrove, D. Botting, R. Heeswijck, P. Høj, P. Dry, C. Ford, P. Iland (2000)
Canopy microclimate and berry composition: The effect of bunch exposure on the phenolic composition of Vitis vinifera L cv. Shiraz grape berriesAustralian Journal of Grape and Wine Research, 6
(2001)
Hyperspectral CASI mode
S. Pitcher-Campbell, M. Tuohy, I. Yule (2001)
The application of remote sensing and GIS for improving vineyard management.
D. Ferns, E. Barrett, L. Curtis (1978)
Introduction to Environmental Remote Sensing.Journal of Applied Ecology, 20
A. Hall, J. Louis, D. Lamb (2001)
A method for extracting detailed information from high resolution multispectral images of vineyards
J. Louis, D. Lamb, A. Hall (2001)
Airbone remote sensing of vines for canopy variability and productivityThe Australian & New Zealand Grapegrower and Winemaker
G. Anderson, Chun-Chieh Yang (1996)
Multispectral Videography and Geographic Information Systems for Site‐Specific Farm ManagementPrecision Agriculture
(2001)
Progress in the development of Precision Viticulture - Variation in Yield, Quality and Soil Properties in Contrasting Australian Vineyards (3.3M). In: Precision tools for improving land management
G. Munkvold, J. Duthie, J. Marois (1994)
Reductions in yield and vegetative growth of grapevines due to Eutypa diebackPhytopathology, 84
F. Manzer (1982)
Use of Portable Videotaping for Aerial Infrared Detection of Potato DiseasesPlant Disease, 66
D. Percival, K. Fisher, J. Sullivan (1994)
Use of Fruit Zone Leaf Removal WithVitis viniferaL. cv. Riesling Grapevines. II. Effect on Fruit Composition, Yield, and Occurrence of Bunch Rot (Botrytis cinereaPers.:Fr.)American Journal of Enology and Viticulture
Intrieri Intrieri, Poni Poni, Rebucci Rebucci, Magnanini Magnanini (1997)
Effects of canopy manipulations on whole‐vine photosynthesis: Results from pot and field experimentsVitis, 36
M. Damen, G. Smit, H. Verstappen (1986)
ISPRS 1986 : Vol. XXVI Commission VII part 1, 2 and 3 : remote sensing for resources development and environmental management : proceedings of the 7th international symposium, Enschede, 25 - 29 August 1986
J. Semler (1963)
The Australian Wine IndustryAustralian Quarterly, 35
P. Petrie, M. Trought, G. Howell (2000)
Fruit composition and ripening of Pinot Noir (Vitis vinifera L.) in relation to leaf area.Australian Journal of Grape and Wine Research, 6
J. Everitt, D. Escobar, M. Alaniz, M. Davis (1987)
Using airborne middle-infrared (1.45–2.0 μm) video imagery for distinguishing plant species and soil conditionsRemote Sensing of Environment, 22
Percival Percival, Fisher Fisher, Sullivan Sullivan (1994)
Use of fruit zone leaf removal with Vitis vinifera L. cv. RieslingAmerican Journal of Enology and Viticulture, 45
J. Price, W. Bausch (1995)
Leaf area index estimation from visible and near-infrared reflectance dataRemote Sensing of Environment, 52
R. Bramley (2001)
Vineyard sampling for more precise, targeted management.
P. Petrie, M. Trought, G. Howell (2000)
Growth and dry matter partitioning of Pinot Noir (Vitis vinifera L.) in relation to leaf area and crop loadAustralian Journal of Grape and Wine Research, 6
(1995)
Aerial video: A new effective method for vineyard planning
(1998)
Pixel size = 20 m
D. King (1992)
Evaluation of radiometric quality, statistical characteristics, and spatial resolution of multispectral videographyJournal of Imaging Science and Technology, 36
Taylor Taylor (2000)
Geographic information systems ‐ a step into the information ageThe Australian Grapegrower and Winemaker, 435
J. Rouse, R. Haas, J. Schell, D. Deering (1973)
Monitoring vegetation systems in the great plains with ERTS, 1
D. Lamb (2000)
The use of qualitative airborne multispectral imaging for managing agricultural crops : a case study in south-eastern australiaAustralian Journal of Experimental Agriculture, 40
Baldy Baldy, DeBenedictis DeBenedictis, Johnson Johnson, Weber Weber, Baldy Baldy, Osborn Osborn, Burleigh Burleigh (1996)
Leaf colour and vine size are related to yield in a phylloxera‐infested vineyardVitis, 35
(1997)
Computerized airborne multicamera imaging system (CAMIS) and its 4-camera applications
R. Gaweł, D. Botting, P. Dry, J. Giddings, P. Iland (1995)
Grapevine canopy performance
K. Sommer, P. Clingeleffer (1995)
Vine development and vigour control
C. Thomas, J. Marois, J. English (1988)
The effects of wind speed, temperature, and relative humidity on developmen of aerial mycelium and conidia of Botrytis cinerea on grapePhytopathology, 78
P. Dry (2000)
Canopy management for fruitfulnessAustralian Journal of Grape and Wine Research, 6
(2001)
Vineyard canopy density mapping with IKONOS satellite imagery
(1971)
Influence of grape variety, climate and soil on grape composition and quality of table wines
D. Percival, K. Fisher, J. Sullivan (1994)
Use of Fruit Zone Leaf Removal WithVitis viniferaL. cv. Riesling Grapevines. I. Effects on Canopy Structure, Microclimate, Bud Survival, Shoot Density, and Vine VigorAmerican Journal of Enology and Viticulture
J. Clevers (1988)
Multispectral aerial photography as a new method in agricultural field trial analysis.International Journal of Remote Sensing, 9
David Lamb (1999)
Monitoring vineyard variability from the airAustralian viticulture, 3
R. Jackson (2000)
Wine Science: Principles, Practice, Perception
L. Johnson, B. Lobitz, R. Armstrong, R. Baldy, E. Weber, J. Benedictis, D. Bosch (1996)
Airborne imaging aids vineyard canopy evaluationCalifornia Agriculture, 50
James Campbell (1987)
Introduction to remote sensingGeocarto International, 2
Brady Brady, Wiley Wiley (2000)
Taking AIMS amongst the vinesThe Australian Grapegrower and Winemaker, 441
S. Ryan, Megan Lewis (2001)
Mapping soils using high resolution airborne imagery, Barossa Valley, SA
J. Everitt, D. Escobar, C. Blazquez, M. Hussey, P. Nixon (1986)
Evaluation of the mid-infrared (1.45 to 2.0 μm) with a black- and -white infrared video cameraPhotogrammetric Engineering and Remote Sensing, 52
J. Taylor, A. McBratney (2001)
Environmental management of a viticultural irrigation district - a "top-down bottom-up" model.
Clevers Clevers (1986)
The use of multispectral photography in agricultural researchProceedings 7th ISPRS Commission Symposium, Remote Sensing for Resources Development and Environmental Management, Enschede, 1
B. Tisseyre, N. Ardoin, F. Sevila, J. Stafford (1999)
Precision viticulture: precise location and vigour mapping aspects.
(1973)
Techniques of oblique aerial photography of agricultural field trials. Division of Soils Technical Paper 19 (CSIRO: Melbourne, Australia)
(1995)
Operational use and calibration of airborne video imagery for agricultural and environmental land management
D. Lamb, A. Hall, J. Louis (2001)
Airborne/spaceborne remote sensing for the grape and wine industry.
R. Escadafal, M. Girard, D. Courault (1989)
Munsell soil color and soil reflectance in the visible spectral bands of landsat MSS and TM dataRemote Sensing of Environment, 27
R. Smithyman, G. Howell, D. Miller (1997)
Influence of Canopy Configuration on Vegetative Development, Yield, and Fruit Composition of Seyval blanc GrapevinesAmerican Journal of Enology and Viticulture
M. Moran (1997)
Combining multifrequency microwave and optical data for crop managementRemote Sensing of Environment, 61
R. Colwell, D. Simonett, F. Ulaby, J. Estes, G. Thorley (1983)
Manual of remote sensing. Volume I. Theory, instruments and techniques. Volume II. Interpretation and applications.
C. Wiegand, A. Richardson, D. Escobar, A. Gerbermann (1991)
Vegetation indices in crop assessmentsRemote Sensing of Environment, 35
G. Prati, S. Cantoni, E. Celotti (2001)
Rapid evaluation of the phenolic potential of red grapes at winery delivery: application to mechanical harvestingThe Australian & New Zealand Grapegrower and Winemaker
(2000)
Variation in grape yield and quality in a Coonawarra vineyard
(1997)
Geospatial Information & Agriculture, Sydney (Causal Productions: Sydney
B. Williams (2002)
GPS applications in viticulture
(1979)
The development of aerial infrared photography to detect Echinochloaspecies in rice
I. Yule, W. Woodgyer, R. Murray (2001)
RTKDGPS and Autodesk Land Development Desktop®; a powerful combination for rapid accurate surveying and land development planning.
Bramley Bramley, Proffitt Proffitt (1999)
Managing variability in viti‐cultural productionThe Australian Grapegrower and Winemaker, 427
(1999)
Ripening grapes to specification: effect of yield on colour development of Shiraz grapes in the Riverina
J. Clevers (1988)
Multispectral aerial photography as a supplemental technique in agricultural research.Netherlands Journal of Agricultural Science, 36
S. Cook, R. Bramley (1998)
Precision agriculture — opportunities, benefits and pitfalls of site-specific crop management in AustraliaAustralian Journal of Experimental Agriculture, 38
S. Arkun, I. Dunk, S. Ranson (2001)
Hyperspectral remote sensing for vineyard management.
G. Arnold, P. Ozanne, K. Galbraith, F. Dandridge (1985)
The capeweed content of pastures in south-west Western AustraliaAustralian Journal of Experimental Agriculture, 25
(1982)
Colour Photography and Videography in Resource Assessment
H. Condit (1970)
THE SPECTRAL REFLECTANCE OF AMERICAN SOILSPhotogrammetric engineering
Hatem Mabrouk, H. Sinoquet (1998)
Indices of light microclimate and canopy structure of grapevines determined by 3D digitising and image analysis, and their relationship to grape qualityAustralian Journal of Grape and Wine Research, 4
The emergence of precision agriculture technologies and an increasing demand for higher quality grape products have led to a growing interest in the practice of precision viticulture; monitoring and managing spatial variations in productivity‐related variables within single vineyard blocks. Potentially, one of the most powerful tools in precision viticulture is the use of remote sensing, which has the ability to rapidly provide a description of grapevine shape, size and vigour over entire vineyards. Its potential for improving viticultural practice will rely on being able to define useful relationships between these canopy descriptors and grape quality and yield. This paper introduces the reader to remote sensing and reviews its recent, and potential, applications in viticulture.
Australian Journal of Grape and Wine Research – Wiley
Published: Apr 1, 2002
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