effects of moisture stress on douglas-fir physiology and growth tom hinckley, college of forest...
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![Page 1: Effects of moisture stress on Douglas-fir physiology and growth Tom Hinckley, College of Forest Resources, University of Washington, Seattle, WA](https://reader030.vdocuments.us/reader030/viewer/2022032800/56649d2a5503460f949ffa78/html5/thumbnails/1.jpg)
Effects of moisture stress on Douglas-fir physiology and growth
Tom Hinckley, College of Forest Resources, University of Washington, Seattle, WA
![Page 2: Effects of moisture stress on Douglas-fir physiology and growth Tom Hinckley, College of Forest Resources, University of Washington, Seattle, WA](https://reader030.vdocuments.us/reader030/viewer/2022032800/56649d2a5503460f949ffa78/html5/thumbnails/2.jpg)
Content of January 29 meeting - 1
Rain, cloud, & fog: Quantity, intensity, timing
Snow: quantity, elevation, rain-on-snow, etc.
Sun: Quantity, vapor pressure gradient
Climate, climate changeFuture• Jeremy Littell• Dave SpittlehousePast• Renee Brooks
Preface Introduction Context Methods Impacts Water & Nitrogen
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Content of January 29 meeting -2
Preface Introduction Context Methods Impacts Water & Nitrogen
Groundwater
Hydraulic redistribution• Frederick MeinzerSoil moisture • Jeffrey McDonnellSoil properties
Soil water contentHydraulic Conductivity
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Content of January 29 meeting -3
Preface Introduction Context Methods Impacts Water & Nitrogen
Site: Microclimate & topography
Physiology & Growth• Tom HinckleyWater Use Efficiency• Andy Black
Climate: Weather
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Outline
• Context• Major physiological processes affected
by moisture stress• Methods for assessing tree moisture
stress• Water-use requirements• Soil water tensions and plant water
potential thresholds that result in growth reductions to growth cessation
• Does fertilization improve water-use efficiency?
Preface Introduction Context Methods Impacts Water & Nitrogen
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Whole Plant Context• An integrated system• Water loss at foliage
level• Water transport• Water uptake• Important to note that
nitrogen stress has been regarded as the main control of growth & productivity in Douglas-fir in PNW
Preface Introduction Context Methods Impacts Water & Nitrogen
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Simple Model of How Trees Might Respond to Stress
• Does the model work?
Leaf GrowthCarbonProduction
CarbonStorage
Root Growth
Water & NutrientUptake
Water & NutrientUtilization
Belowgrd stress: • nutrients• water• oxygen
Abovegrd stress: • light• ozone• herbivory
Preface Introduction Context Methods Impacts Water & Nitrogen
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Responses To Belowground Stress
Reich et al. (1980. Forest Science 26: 590) Quercus spp.
Borchert (1975. Physiologia Plantarum 35: 152) Quercus spp.
• Tree Scale
Preface Introduction Context Methods Impacts Water & Nitrogen
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Individual Tree Response Cont.
• Experiment with Douglas-fir and nitrogen (Friend et al. 1990. Can. J. For. Res.)
Total of 6 Combined Treatments:
N Concentration of Macroenvironment
0 ppm 20 ppm 100 ppm
0 ppm
200 ppm
Ss
Sn
Is
In
Ns
Nn
N Concentration
of Micro-
environment
2.5 l
0.4 l0.4 l
Macroenvironment
Severe N
Stress (s)
No N
Stress (n)
Micro-
environment
-N +N
-N +N
Nitrogen Stressed
R
F
r2 highr1 low
oots
oliage
r1 low
R
F
r2 high
oots
oliage
Non-Stressed
Preface Introduction Context Methods Impacts Water & Nitrogen
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Stand Response
• Keyes and Grier (1981.CJFR): young and high site 40-year-old Douglas-fir
Preface Introduction Context Methods Impacts Water & Nitrogen
Net
Prim
ary
Pro
duct
ivity
Site
IV+ S
ite II
-
Abo
vegr
ound
Bel
owgr
ound
Changes with Fertilization
Net
Prim
ary
Pro
duct
ivity
Site
IV+ S
ite II
-
Abo
vegr
ound
Bel
owgr
ound
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Broader Geographic Comparison
Pseudotsuga menziesii
Tsuga heterophylla
Lee et al. (2007. Forest Ecology & Management 242: 195)
Preface Introduction Context Methods Impacts Water & Nitrogen
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Site Water Balance & Productivity
• Grier and Running. 1977. Ecology
Soil depth & textureWater holding capacityFull April 1Output: Pan AETInput: PPT
Climate change
PisiTshe
PsmeJuoc
Mixed
Preface Introduction Context Methods Impacts Water & Nitrogen
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Take-home Messages
• Water and nutrients intertwined in PNW– Young soils– Climatic regime– Water long enough, would change site class
• Leaf area (tree/stand) sets the productivity potential (species, site, length of time when temperature/light + and water also+)
• Climate change– Length of growing season– Shifts in distribution of snow pack, cloud and fog
Preface Introduction Context Methods Impacts Water & Nitrogen
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Methods• Scholander-Hammel Pressure Bomb
(PMS)• Leaf or stomatal conductance• Sap velocity, sap flux• Soil moisture• Canopy microclimate (eddy flux)• Remote sensing including air & ground-
based LiDAR• Air spade, ground penetrating radar
Preface Introduction Context Methods Impacts Water & Nitrogen
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Physiological Processes Impacted
• Stomatal closure
• Reductions in photosynthesis
• Reductions in growth
• Changes in carbon allocation
• Senescence & abscission of foliage
• Decreases in nutrient uptake
• Cavitation of conducting elements
• Die-back, mortality
Preface Introduction Context Methods Impacts Water & Nitrogen
• Stomatal closure (decreases in carbon gain; offset partially by increases in CO2 [WUE]; vpg may increases, however)
• Allocation to roots• Decreases in tree/stand leaf area
Warmer, longer, drier ‘summers’:
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Water Used & Thresholds
• Water used: 0 - 500 l (kg) per day
• Water used: 0 - 5 mm per day
• Winter desiccation
• Wilting
• Length of ‘growing season.’
• Site
• Height
Preface Introduction Context Methods Impacts Water & Nitrogen
Soil water holding capacity is often associated with nutrition
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Irrigation
• Dale Cole: It makes no sense to irrigate (PNW)
• Re-examine that statement
• Lessons from the SE– Series of studies conducted by T. Albaugh, L.
Allen, T. Dean, P. Dougherty, B. Ewers, E. Jokela, K. Johnsen, L. Kress, T. Martin, R. Oren, L. Samuelson, R. Teskey
– Loblolly pine (FL, GA, LA, NC, OK)
Preface Introduction Context Methods Impacts Water & Nitrogen
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Leaf Area, Water & Fertilization• Water use: IF (1.8 mm), F (1.2 mm)*, I
and C (0.7 mm).• Growth efficiency (SMI/LAI): IF (2.9
Mg/ha•y•LAI), F (2.7), I (2.4), C (1.9)• Soil water availability poor predictor of
productivity.• Soil nutrient availability much better• Understory control (nutritional)• Genetics/disease control• Genetic potential in its native range• Fertilization provides greatest gain
* Improved depth of rooting
Preface Introduction Context Methods Impacts Water & Nitrogen
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Summary
• Site nutrient availability is critical
• Water (or competition for) is critical early for root establishment.
• Water likely to become more critical in the future
• Unknowns
Preface Introduction Context Methods Impacts Water & Nitrogen
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Orphaned Slides (not used in formal talk
0-0.4-0.8-1.2
Growing Region Water Potential (MPa)
0
2
4
Leaf
Silk
Stem
Nodal roots
• Experiment with corn and water (John Boyer)
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Role of N mineralization on fine root production
• Grier et al. (1981. CJFR): young vs. old-growth Pacific silver fir
Per
cent
age
of
Tot
al N
PP
al
loca
ted
to f
ine
root
s
High
Low
N Mineralization
Includes high & low site Psme, young and old Abam and young Tshe
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What’s ‘new’ in Douglas-fir water relations
• Role of height (Bond, Meinzer, Ryan)
• Role of storage (Bond, Cermak, Meinzer)
• Role of hydraulic redistribution (Brooks, Meinzer)
• Role of night-time transpiration (Ferrell)
• Role of roots - microorganisms - guild
Preface Introduction Context Methods Impacts Water & Nitrogen
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Critical Role of Leaf Area in NPP
• Data from Abam (cited in Hinckley et al. 1999. Phyton). First measures 80 - 82; foliage re-measured 1995)