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Cranberry 2011-ma-show

The document discusses cranberry scald, its causes, and the complexities of managing its impact on crops. It details environmental conditions, physiological stressors, and the need for improved understanding and forecasting to mitigate scald events. A comprehensive plan of action is proposed, emphasizing research and best practices for effective management.

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Cranberry Scald – What do we know & what is our plan of action? Dr. Paul J. Croft, MeteorologistPutting the pieces together… • What we (think) we know • Relations we need to know • Scald Events (& disparities) • What are the combinations? • Forecasting attempts • Remediation issues • Conceptual Framework • Creating a Plan of Action
 All berries/fruit (even vegetables) susceptible  Field v. harvest v. production v. treatment  Fungal contributions (e.g., G. Vaccini 1889)  “Steam” scald and “Heat” scald Environmental Conditions  Management Practices  Cultivar & Phenophase Time of day/Duration  Mitigation/Prevention (Caveat: Much evidence but little comprehensive field/lab or experimental work) Damage: Superficial injury to ‘cooked’ on the vine… Diagnosis: Scald – Blast – Rot – Relations Factors: Heat – Cold – Storage - Processing
What exactly is happening?  Physiological Breakdown  Fruit stage of development  Coloration, surface texture  Cooling mechanisms of plant  Due to Environmental “Shock” of the plant system  Intense solar radiation, excessive field/canopy temperatures, & varying wet/dry combinations  “Activation” of “ever-present” fungus Identification & Collateral Damage  Lightly colored “watery area” on surface of cranberry  Multiple spots, presentation “side” (link to irrigation water & “steaming”?)  Surface lesion enlarges, berry softens, and turns brown  Berry “Rot” sets-in and fruit becomes misshapen, soft-mushy  Any flowers, shrivel/die-back = “Blast”  Any leaves, discoloration = damage/die-back (red rust, rose mildew)  Plant and berries susceptible to additional injuries/pathogens/insects  Large variability within/between bogs & according to management practices
Relations we need to know… Cranberry Physiology Physical Environment  Cultivar behaviors vary  Phenophase (berry/plant)  Presence & prevalence of fungus  Stress level (stomatal “failure”)  Plant water partitioning and demand (root, leaf, stem, fruit)  Heat shock proteins (cold too)  Sugar & Mineral contents  Tissue/membrane & physical characteristics of plant system  Berry “presentation” & time of day; solar spectrum definition  Fruit & field temperatures  Duration & frequency of exposure  Bog soil properties/conditions  Management irrigation/cooling  Water table level/management  Edge effects; crop area affected  Herbicide, insecticide, fungicide applications; aeration practices How do we find out? => Field, Lab, and Experimental
…or that we need to investigate… Cranberry Physiology Physical Environment  Phenophase – fruit stage/color are important to occurrence  Physiological – disorders, maturity, nutritional imbalances  Bio-factors – pathological, animal, entomological, genetic variation and alterations  Climate/Weather and local variations across small regions  Water relationships and light interactions; cultivation  Mechanical damage, sanding  Chemical residues, growing medium, vegetative matter To do so => Need specific investigations/research What should we change or not change? We don’t clearly know
What do we already know? Temperature Solar Radiation  Consider number of average high temp days of 90 or more by cranberry regions in U.S. (vs. highest temps on record)  Consider percent annual sunshine received (vs. cloud cover, duration, and similar) Let’s focus on the Physical Environment and Factors Consider Pac-NW, WI, MA, and NJ regions… More or less prone?
Rainfall, Moisture, Hail…  Mean annual rainfall across the U.S. (vs. season and mean values of RH or dewpoint) and compare to summer only What are the other mean conditions and variations? What else do we already know? More or less prone?
Tropical Storms/Hurricanes  Storms ‘typical’ each year  How close to coastline  Indirect effects are common (e.g., subsidence clearing and higher temperatures, wind speeds increase) What are the principle threats from severe weather? What else do we already know? More or less prone? Images from Michael J. Iacono (Blue Hill Meteorological Observatory)
Scald Events (& disparity)… Summer 2010 Temps above “Drought” & Rains Summer 1992 Temps normal Rainfall Summer 1990 Temps normal Wx conditions Now how do these conditions relate to scald events?
So…do we have a “Smoking Gun”? • High Pressure Day to Day • High Solar Radiation • High Temperatures • Low Dewpoints first • High Dewpoints later • Light Winds most of period Aug 29 –> Sep 4 Compare to Summer 2010
Compare to Summer 2010 What the Aug and Sep plots show… • Stronger solar radiation • Variable weather pattern • Aug 26-29 low dewpoints • Lighter winds Plymouth Municipal Airport Weather Underground
“Nearby” in Pennsylvania: UV-B Was it Aug 28-29 or Aug 31-Sep 1 or Sep 2-3 or…??? Peak UV-B values in Aug but longer duration in Sep Aug 26 – Sep 6, 2010
Questions and additional data… • “Steam” Scald • “Heat” Scald • Combination? • “Heat” preceded “Steam”? • “Heat” followed “Steam”? • Cranberry/Canopy Temperatures? • Durations of exposure? • Was it a combination? • How would we know difference? • How would we be able to detect and measure? • What other data do we need? => Bog UV Index values: Higher than average for time period AQ Index values & Ozone: Need to be determined
Bog specific information helps… How does that help? • Use from 1990 scald event in NJ (Aug 1-2-3-4) • Consider fruit with regard to temperature, moisture, and solar conditions collectively Summer 1990
What did we observe? • Bog stress level • Stomatal behaviors • Management practices • Weather conditions • Role of T, Humidity, Wind values? • Duration of exposure? • UV/Vis impacts? • AQ/Ozone impacts? • Sea Breeze? Summer 1990
What are the Combinations? (and why the significant variations?) Cranberry Bog Environment Canopy conditions of plants  Presence of fungus/other  Soil Water Potential  Soil Temperatures  Management Practices for irrigation/sprinkler or cooling  Nutrients and Physiology  Atmospheric (Wx) Conditions  Evaporative Demand/Wind speed  Lack of rain (or too much prior)?  Low dewpoint temperatures  Solar Radiation (amount, duration, exposure/presentation) Micro-Meteorology/Climatology & Local Physiography …or a “Family” of scald behaviors due to various combinations of factors… Management Environmental Physiological Wikipedia
Forecasting attempts – some success? Method developed at Rutgers University Focus was on maximum temperatures and lower dewpoints with evaporative demand and wind speeds (1990 event data analysis) What’s been accomplished since then? Network data stations, bog monitoring, and revised management practices…yet still problems? Opportunity is there for localized bog forecasts but… Do we know what to measure and when and why and how? Should we be using additional data such as the UV Index and AQ Index? Should we be using gridded/GIS data forecasts from the NWS/NOAA? Should we be completing some research to find out what we don’t really know?
Remediation & Climate Issues: A-M-P Avoidance  Hope for a “Good” summer and no scald occurrence  Timing and Weather Conditions do not present when berry is most susceptible  Grow something else or move location to “better” climate  Fungus not an issue Mitigation Irrigation/Sprinkler (cooling) Flooding (“cover” cooling) Dusting (albedo/heating) Aeration (cooling/drying) Chemical Treatment Prevention Fungicide/IPM approach Genetic/other techniques Some of above mitigations
Conceptual Framework… Confounding Factors & Precursors are all known? Can we Monitor the Activation Mechanisms?
Creating a Plan of Action Simulate Modeling & Observational studies to depict what is happening interactively between plant and environment (as related to field management practices) Test Verification to relate specific damage (physiology) to key factors as observed in the field and lab and by various experiments Actively Remediate Controlled trials for A-M-P to show value of prediction/management and to test/verify specific methods or practices and cost/efficacy Track for Integrated Management “Best Practices” for combinations of most important environmental & plant factors to provide forecasts that account for these on a daily basis with use of GIS modeling & visualization methods and risk assessment
Dr. Paul J. Croft Acknowledgements – School of Environmental and Life Sciences and the Student Research Assistants of the Kean University Meteorology Program We can do this…scald should not be a mystery!

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Cranberry 2011-ma-show

  • 1.
    Cranberry Scald –What do we know & what is our plan of action? Dr. Paul J. Croft, MeteorologistPutting the pieces together… • What we (think) we know • Relations we need to know • Scald Events (& disparities) • What are the combinations? • Forecasting attempts • Remediation issues • Conceptual Framework • Creating a Plan of Action
  • 2.
     All berries/fruit(even vegetables) susceptible  Field v. harvest v. production v. treatment  Fungal contributions (e.g., G. Vaccini 1889)  “Steam” scald and “Heat” scald Environmental Conditions  Management Practices  Cultivar & Phenophase Time of day/Duration  Mitigation/Prevention (Caveat: Much evidence but little comprehensive field/lab or experimental work) Damage: Superficial injury to ‘cooked’ on the vine… Diagnosis: Scald – Blast – Rot – Relations Factors: Heat – Cold – Storage - Processing
  • 3.
    What exactly ishappening?  Physiological Breakdown  Fruit stage of development  Coloration, surface texture  Cooling mechanisms of plant  Due to Environmental “Shock” of the plant system  Intense solar radiation, excessive field/canopy temperatures, & varying wet/dry combinations  “Activation” of “ever-present” fungus Identification & Collateral Damage  Lightly colored “watery area” on surface of cranberry  Multiple spots, presentation “side” (link to irrigation water & “steaming”?)  Surface lesion enlarges, berry softens, and turns brown  Berry “Rot” sets-in and fruit becomes misshapen, soft-mushy  Any flowers, shrivel/die-back = “Blast”  Any leaves, discoloration = damage/die-back (red rust, rose mildew)  Plant and berries susceptible to additional injuries/pathogens/insects  Large variability within/between bogs & according to management practices
  • 4.
    Relations we needto know… Cranberry Physiology Physical Environment  Cultivar behaviors vary  Phenophase (berry/plant)  Presence & prevalence of fungus  Stress level (stomatal “failure”)  Plant water partitioning and demand (root, leaf, stem, fruit)  Heat shock proteins (cold too)  Sugar & Mineral contents  Tissue/membrane & physical characteristics of plant system  Berry “presentation” & time of day; solar spectrum definition  Fruit & field temperatures  Duration & frequency of exposure  Bog soil properties/conditions  Management irrigation/cooling  Water table level/management  Edge effects; crop area affected  Herbicide, insecticide, fungicide applications; aeration practices How do we find out? => Field, Lab, and Experimental
  • 5.
    …or that weneed to investigate… Cranberry Physiology Physical Environment  Phenophase – fruit stage/color are important to occurrence  Physiological – disorders, maturity, nutritional imbalances  Bio-factors – pathological, animal, entomological, genetic variation and alterations  Climate/Weather and local variations across small regions  Water relationships and light interactions; cultivation  Mechanical damage, sanding  Chemical residues, growing medium, vegetative matter To do so => Need specific investigations/research What should we change or not change? We don’t clearly know
  • 6.
    What do wealready know? Temperature Solar Radiation  Consider number of average high temp days of 90 or more by cranberry regions in U.S. (vs. highest temps on record)  Consider percent annual sunshine received (vs. cloud cover, duration, and similar) Let’s focus on the Physical Environment and Factors Consider Pac-NW, WI, MA, and NJ regions… More or less prone?
  • 7.
    Rainfall, Moisture, Hail… Mean annual rainfall across the U.S. (vs. season and mean values of RH or dewpoint) and compare to summer only What are the other mean conditions and variations? What else do we already know? More or less prone?
  • 8.
    Tropical Storms/Hurricanes  Storms‘typical’ each year  How close to coastline  Indirect effects are common (e.g., subsidence clearing and higher temperatures, wind speeds increase) What are the principle threats from severe weather? What else do we already know? More or less prone? Images from Michael J. Iacono (Blue Hill Meteorological Observatory)
  • 9.
    Scald Events (&disparity)… Summer 2010 Temps above “Drought” & Rains Summer 1992 Temps normal Rainfall Summer 1990 Temps normal Wx conditions Now how do these conditions relate to scald events?
  • 10.
    So…do we havea “Smoking Gun”? • High Pressure Day to Day • High Solar Radiation • High Temperatures • Low Dewpoints first • High Dewpoints later • Light Winds most of period Aug 29 –> Sep 4 Compare to Summer 2010
  • 11.
    Compare to Summer2010 What the Aug and Sep plots show… • Stronger solar radiation • Variable weather pattern • Aug 26-29 low dewpoints • Lighter winds Plymouth Municipal Airport Weather Underground
  • 12.
    “Nearby” in Pennsylvania:UV-B Was it Aug 28-29 or Aug 31-Sep 1 or Sep 2-3 or…??? Peak UV-B values in Aug but longer duration in Sep Aug 26 – Sep 6, 2010
  • 13.
    Questions and additionaldata… • “Steam” Scald • “Heat” Scald • Combination? • “Heat” preceded “Steam”? • “Heat” followed “Steam”? • Cranberry/Canopy Temperatures? • Durations of exposure? • Was it a combination? • How would we know difference? • How would we be able to detect and measure? • What other data do we need? => Bog UV Index values: Higher than average for time period AQ Index values & Ozone: Need to be determined
  • 14.
    Bog specific informationhelps… How does that help? • Use from 1990 scald event in NJ (Aug 1-2-3-4) • Consider fruit with regard to temperature, moisture, and solar conditions collectively Summer 1990
  • 15.
    What did weobserve? • Bog stress level • Stomatal behaviors • Management practices • Weather conditions • Role of T, Humidity, Wind values? • Duration of exposure? • UV/Vis impacts? • AQ/Ozone impacts? • Sea Breeze? Summer 1990
  • 16.
    What are theCombinations? (and why the significant variations?) Cranberry Bog Environment Canopy conditions of plants  Presence of fungus/other  Soil Water Potential  Soil Temperatures  Management Practices for irrigation/sprinkler or cooling  Nutrients and Physiology  Atmospheric (Wx) Conditions  Evaporative Demand/Wind speed  Lack of rain (or too much prior)?  Low dewpoint temperatures  Solar Radiation (amount, duration, exposure/presentation) Micro-Meteorology/Climatology & Local Physiography …or a “Family” of scald behaviors due to various combinations of factors… Management Environmental Physiological Wikipedia
  • 17.
    Forecasting attempts –some success? Method developed at Rutgers University Focus was on maximum temperatures and lower dewpoints with evaporative demand and wind speeds (1990 event data analysis) What’s been accomplished since then? Network data stations, bog monitoring, and revised management practices…yet still problems? Opportunity is there for localized bog forecasts but… Do we know what to measure and when and why and how? Should we be using additional data such as the UV Index and AQ Index? Should we be using gridded/GIS data forecasts from the NWS/NOAA? Should we be completing some research to find out what we don’t really know?
  • 18.
    Remediation & ClimateIssues: A-M-P Avoidance  Hope for a “Good” summer and no scald occurrence  Timing and Weather Conditions do not present when berry is most susceptible  Grow something else or move location to “better” climate  Fungus not an issue Mitigation Irrigation/Sprinkler (cooling) Flooding (“cover” cooling) Dusting (albedo/heating) Aeration (cooling/drying) Chemical Treatment Prevention Fungicide/IPM approach Genetic/other techniques Some of above mitigations
  • 19.
    Conceptual Framework… Confounding Factors& Precursors are all known? Can we Monitor the Activation Mechanisms?
  • 20.
    Creating a Planof Action Simulate Modeling & Observational studies to depict what is happening interactively between plant and environment (as related to field management practices) Test Verification to relate specific damage (physiology) to key factors as observed in the field and lab and by various experiments Actively Remediate Controlled trials for A-M-P to show value of prediction/management and to test/verify specific methods or practices and cost/efficacy Track for Integrated Management “Best Practices” for combinations of most important environmental & plant factors to provide forecasts that account for these on a daily basis with use of GIS modeling & visualization methods and risk assessment
  • 21.
    Dr. Paul J.Croft Acknowledgements – School of Environmental and Life Sciences and the Student Research Assistants of the Kean University Meteorology Program We can do this…scald should not be a mystery!

Editor's Notes

  • #5 Trying to point out that it may be more a matter of combination conditions ‘waiting to happen’ rather than simply too hot in the summer…
  • #7 Illustrates variation between cranberry growing regions and fact that high T and high sun not unusual…common…but scald not every year…
  • #8 Illustrates variation between cranberry growing regions and that rainfall/moisture conditions common…but scald not every year or location and some regions of US may be more prone than others?
  • #9 Illustrates variation between cranberry growing regions and how ‘threat’ varies locally…based on what we think we know…
  • #20 We don’t have to over-think this…we simply need relevant data and testing to decipher what is going on and why…