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Potential Pathways of Ecosystem Responses to Climate Change

Potential Pathways of Ecosystem Responses to Climate Change. Landsat MSS Image Mosaic 1977-1986 USGS. Torre Jorgenson ABR, Inc. Types of Land Change. Geomorphic processes Coastal (increased erosion, flooding, salt kill) Fluvial (changed channel migration rates, sedimentation

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Potential Pathways of Ecosystem Responses to Climate Change

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  1. Potential Pathways of Ecosystem Responses to Climate Change Landsat MSS Image Mosaic 1977-1986 USGS Torre Jorgenson ABR, Inc.

  2. Types of Land Change • Geomorphic processes • Coastal (increased erosion, flooding, salt kill) • Fluvial (changed channel migration rates, sedimentation • Lacustrine (mid-summer drying, bank erosion, tapping, paludification) • Permafrost (ice-wedge degradation, slower permafrost formation) • Hydrology • Earlier snowmelt and spring discharge • Higher spring water levels • Mid-summer lake drying (faster drawdown) • Lower mid-summer river discharge, active channel shrinkage • Decreased glacier meltwater input • Lake tapping and drainage • Vegetation • Longer growing season (more biomass) • Earlier forage quality curve • Shrub expansion (height and infilling), (migration) • Succession after disturbance • Migration (alder, spruce, sphagnum)(corridors) • Microsite moisture shifts (wetter troughs, drier centers) • Leaching and acidification • Paludification (bog meadows, productivity decrease) • Species composition-community shifts

  3. Approaches to Predicting Change • Extrapolate from past changes • Soil/sediment stratigraphy, remote sensing, historical photos • Complex modeling • Comparative ecosystem analysis • North Slope versus Seward Peninsula

  4. Ecosystems of Northern Alaska

  5. Coastal Pathways Higher Tundra Deltas, Basins, Lagoons, Barrier Islands Upland Tussock Tundra Lowland Moist Sedge-Shrub Tundra Lowland Wet Sedge Tundra (swales) sedimentation, less flooding sedimentation, less flooding Lowland Moist Sedge-Shrub Tundra Coastal Dwarf Shrub (willow) Coastal Wet Sedge Tundra (brackish) sedimentation sedimentation Lowland Wet Sedge Tundra Coastal Grass Tundra Coastal Wet Sedge Tundra (saline) sedimentation sand mud flooding, salinization bank erosion Coastal Barrens (including salt-killed tundra) bank erosion Nearshore Water

  6. Mudflat C. subspath. D. fisheri

  7. Coastal Meadow Toposequence

  8. Lake Basin Evolution Ice-rich Center Ice-rich Margin Erosion of Ice-rich Center

  9. Coastal Plain Pathways Basins Non-basins Upland Tussock Tundra Upland Shrubby Tussock Tundra Upland Tussock Tundra shrub expansion shrub expansion paludification, acidification Lowland Low Birch-Willow Shrub ice aggradation, paludification paludification, acidification shrub expansion Lowland Wet Sedge Tundra Lowland Moist Sedge-Shrub Tundra Lowland Bog Meadows Lowland Moist Sedge-Shrub Tundra ice aggradation, paludification paludification, acidification drying Lacustrine Sedge Marsh Lacustrine Wet Sedge Tundra Lacustrine Low Willow Scrub Lowland Wet Sedge Tundra (swales) Lacustrine Grass Meadows paludification paludification succession succession succession Shallow Lakes, Pits Lacustrine Grass Marsh Lacustrine Barrens paludification, acidification paludification, acidification partial drainage complete drainage bank erosion, thermokarst bank erosion, thermokarst Deep Lakes thermokarst troughs and pits

  10. Lowland Wet Sedge Tundra Conversion by lowering water table Lowland Moist Sedge-Shrub Tundra:

  11. Wet Sedge - NPRA Bog Meadow – Seward Peninsula

  12. Advanced Degradation Intermediate Degradation Dead Tussocks Initial Stabilization

  13. Infilling with Sphagnum

  14. Drying After Permafrost Degradation Photo by Torre Jorgenson

  15. Lacustrine Ecosystems

  16. Lower Noatak Lowlands

  17. Lowland Water: Shallow (<1.5 m) ponds: water freezes to the bottom during winter, thaws by early to mid-June, and is warmer than water in deep lakes. Deep (1.5 m) lakes: water does not freeze to the bottom during winter in deeper portions of the lake. Lacustrine Marsh: In deeper water (30–100 cm), Arctophila fulva In shallower (<30 cm) water, Carex aquatilis, Eriophorum angustifolium and Utricularia vulgaris

  18. Thermokarst Lake, Koyukuk Flats

  19. Riverine Pathways Eolian Processes Fluvial Processes Riverine White Spruce Forest Meander Abandoned Overbank Deposit thermokarst, bank erosion Upland Crowberry Dwarf Shrub Upland Cassiope Dwarf Shrub Riverine Lake Lowland Bog Meadow thermokarst paludification, acidification Lowland Wet Sedge Tundra Lowland Moist Sedge-Shrub Tundra sedimentation, paludification ice aggradation, less sedimentation paludification ice aggradation, reduced sedimentation paludification Meander Inactive-Overbank Deposit Riverine Cottonwood Forest Riverine Moist Sedge-Shrub Tundra Upland Dryas Dwarf Shrub Upland Low-Birch-Willow Shrub Riverine Wet Sedge Tundra increased drainage cutbank, increased drainage reduced flooding, less sedimentation, increased drainage reduced flooding, less sedimentation, ice aggradation, decreased drainage paludi-fication Riverine Low Willow Scrub Riverine Dryas Dwarf Shrub reduced flooding, less sedimentation, ice aggradation, decreased drainage Meander Active-Overbank Deposit Eolian Sand Deposit Riverine Tall Alder-Willow Shrub Riverine Grass Marsh Riverine Moist Tall Willow Shrub Upland Dry Tall Willow Shrub alder expansion, reduced flooding, frequent sedimentation, increased drainage channel abandonment Active Channel Deposits drainage sedimentation, channel migration riverbank erosion Riverine Barrens Lower Perennial River

  20. Riverine Moist Low Willow Shrub Lower Perennial River Riverine Moist Tall Willow Shrub Riverine Barrens Upland Dry Dryas Dwarf Shrub Riverine Wet Sedge Meadow Lowland Wet Sedge Meadow Water

  21. Riverine Succession

  22. Floodplains as Migration Corridors

  23. Upland Ecosystems Upland Hydrology: 8-10 ka (loess) to 60 Ma surfaces Highly integrated drainages Suprapermafrost Groundwater Flow Soil highly leached Water-tracks

  24. Upland Pathways Ridges Mid-Slopes Swales/ Watertracks/ Troughs/ Basins Upland Alder Tall Shrub Upland Alder Tall Shrub (including alder-tussock) alder expansion alder expansion Upland Dryas Dwarf Shrub Tundra (including ericaceous dwarf shrub, cassiope dwarf shrub) Upland Low Birch-Willow Shrub Upland Shrubby Tussock Tundra acidification shrub growth acidification shrub growth Lowland Birch-Willow Shrub Upland Moist Sedge-Shrub Tundra Upland Tussock Tundra ice aggradation, paludification Lowland Bog Meadows Wet Sedge Meadow paludification thermokarst troughs and pits thaw slumps extremely ice-rich Deep Thaw Lakes See Coastal Plain Basin Pathways

  25. Noatak Basin Thaw SlumpsIce-rich Colluvium

  26. Alkaline Toposequence

  27. Upland Low Birch-Willow Shrub Tundra:

  28. NPRA MAAT = -12 C MAAT = -6 C Seward Peninsula MAAT = +2 C King Salmon High resilience of tussock tundra

  29. Lichen Loss – Noatak Basin 1909 – Phillip Smith

  30. 2006 Photo by Torre Jorgenson

  31. Shrub Expansion

  32. Upland Tall Alder Shrub Alnus crispa, Salix pulchra, Salix glauca, Vaccinium uliginosum, Vaccinium vitis-idaea, B. glandulosa, Ledum groenlandicum,Empetrum nigrum, Equisetumarvense, Spiraea beauverdiana, Calamagrostis canadensis, Petasites frigidus, Sphagnum spp., Hylocomium splendens

  33. 1918 Near Naknek River, King Salmon P. Hagelbarger

  34. 2005 G. Frost

  35. 1918 Near Naknek River, King Salmon P. Hagelbarger

  36. Disturbance Fire

  37. Ecosystems of Northern Alaska

  38. Circumpolar Arctic Vegetation Map Walker et al. 2003

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