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Tortoises and Hares: Dissolution, Erosion and Isostasy in Landscape Evolution

The Irish Landscape. Tortoises and Hares: Dissolution, Erosion and Isostasy in Landscape Evolution. MJ Simms, Earth Surface Processes and Landforms , v29, p477, 2004 http://www.habitas.org.uk/staff_pdf_files/Tortoises.pdf. How can we explain this patttern of uplands and lowlands?.

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Tortoises and Hares: Dissolution, Erosion and Isostasy in Landscape Evolution

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  1. The Irish Landscape Tortoises and Hares: Dissolution, Erosion and Isostasy in Landscape Evolution MJ Simms, Earth Surface Processes and Landforms, v29, p477, 2004 http://www.habitas.org.uk/staff_pdf_files/Tortoises.pdf

  2. How can we explain this patttern of uplands and lowlands?

  3. Carboniferous Limestone underlies c. 40% of Ireland’s surface

  4. Limestones were deposited in tropical seas Puerto Rico

  5. Many Dublin buildings built from Carboniferous Limestone

  6. Millstone Grit & Coal Measures Carb. Limestone Old Red Sandstone Limestone is sandwiched between clastic silicate rocks

  7. Old Red Sandstone Manchester Town Hall Silicate Rocks -Sandstones Millstone Grit

  8. Silicate Rocks - Granite

  9. Denudation of Limestones & Silicates Slow but steady wins the race

  10. Denudation of Limestones & Silicates Slow but steady wins the race

  11. Denudation MechanismsParticle Entrainment (silicates)versusDissolution (limestones)

  12. Silicate Rocks

  13. Denudation of silicate rocks occurs largely through mechanical erosion, mainly by water and sometimes by ice

  14. Denudation of silicate rocks occurs largely through mechanical erosion, mainly by water and sometimes by ice

  15. Dissolution contributes to fragmentation of the rock but there is no significant volume change. Without erosion, the weathered material remains in situ.

  16. Mere contact between rock and water is not enough to effect erosion. The sediment must be entrained.

  17. Entrainment is a rate-limited process: A threshold velocity exists below which erosion does not occur

  18. Once entrained, sediment can be transported at relatively low speeds.

  19. Limestones

  20. Limestone is dissolved slowly by water. This process forms many different types of solutional sculpting, together called karren. Since water moves downwards under gravity, the limestone is dissolved downwards to form solution pits, solution runnels, the familiar grikes of limestone pavements, and even vast potholes sometimes hundreds of metres deep.  Solution Runnels

  21. Tube Karren

  22. Limestone Pavement: Characteristic block joints in limestone enlarged when mildly acidic rainwater causes solution weathering e.g. The Burren, Co. Clare

  23. Streams disappearing underground and resurging from underground in limestone country.

  24. Malham Cove Streams resurging from underground in limestone country.

  25. Limestone (Karst) Scenery Surface mechanical erosion of limestone is relatively unimportant. Most of the drainage occurs underground.

  26. Denudation Timescales

  27. Fault Rocks Little mechanical erosion occurs for much of the time

  28. But when flow speeds are high, several metres may be eroded in a single event.

  29. Limestone dissolution equates to surface lowering. Lowering rates seldom exceed a few mm per year.

  30. Paragenetic Cave Passages But limestone dissolution occurs most of the time Paragenesis occurs in completely flooded conduits where the flow rates are too slow to transport particles. Simultaneous dissolution of the roof and deposition of fine sediment demonstrates the contrast between velocity-threshold-constrained particle movement and unconstrained dissolution

  31. Denudation Timescales Denudation of limestone occurs whenever CO2 under-saturated water is in contact with the rock. Denudation of silicate rocks require high flow velocities. Denudation is more continuous through time on limestone than on other rocks.

  32. Vegetation CoverDenudation Inhibitor (silicates)versusDenudation Enhancer (limestones)

  33. Vegetation forms a physical barrier between flowing water and rock/regolith beneath. It also absorbs the energy of impacting raindrops.

  34. Fault Populations Ground and near-ground cover provides the greatest capacity for energy absorption

  35. Vegetation aids development of soil, which protects underlying rocks from mechanical erosion.

  36. Effect of deforestation and cultivation illustrates importance of soil. Change from forestry to agricultural land use can increase sediment yield by up to a factor of 20.

  37. Typical soft Irish day in Dingle

  38. Stalagtites & stalagmites of redeposited calcite in cave passages at shallow depth beneath soil and vegetation covered limestone shows that water percolating through the soil still dissolves the limestone

  39. Effect of Climate

  40. Arid Climates Little water, so mechanical weathering dominates dissolution. Weathering is mainly by occasional high runoff events. Limestones are often mechanically stronger than silicate rocks, so they tend to form high ground.

  41. Temperate Humid Climates High rainfall, so limestone dissolution important, accentuated by vegetation. Vegetation protects silicate rocks from mechanical erosion. Long-term surface lowering rates for limestones may exceed those for silicate rocks.

  42. IRELAND Temperate, humid climate Limestones weather faster than silicates

  43. Implications forLandscape Development Considering Ireland’s climate, we expect to see limestone outcrops corresponding to lowlands and silicate outcrops corresponding to high ground.

  44. Galway granite Leinster granite Munster Basin - Old Red Sanstone Uplands underlain by silicate rock

  45. Millstone Grit & Coal Measures Carb. Limestone Old Red Sandstone Limestone is sandwiched between clastic silicate rocks

  46. Central lowlands Lowlands underlain by limestone

  47. Millstone Grit & Coal Measures Carb. Limestone Old Red Sandstone Limestone is sandwiched between clastic silicate rocks

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