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Hypothesis is it possible to engineer a shore so as to reduce the volume of material removed as a consequence of climate change? problems MOdel is imperfect, Hypothesis is it possible to engineer a shore so as to reduce the volume of material removed as a consequence of climate change? problems How could we do this without trying all possible scenarios?, Static or dynamic perhaps Look at rsponse to accelerated SLR of shores where the beach is heldd lower than its exuilibrium, Static or dynamic perhaps Static beach but bulked by additional sediment released?, Static beach but bulked by additional sediment released? therefore sensitive to Sediment content/ cliff height, Conclusions are Numerical model is a useful tool for describing these modes of erosion, Conclusions are Conceptial model describes a good proportion of the literature, Review of literature including Contradictions, Review of literature including Disparate observations, (JCR) Intro to regional scale modelling, identification of SL and STL cerosion modes discussion Coastal management implications of, Could be static or dynamic results might Build the case for esem adaptive coastal engineering systems, How could we do this without trying all possible scenarios? we could Explore the behaviour for a small number of scenarions, and then the interpretation (in terms of dissipative system) might allow us to extraplolate to the general case, Look at rsponse to accelerated SLR of shores where the beach is heldd lower than its exuilibrium although This would just be the two effects added, or would it?, This is an interesting question describing thec oast in terms of a dissipative system might allow us to tie this in to system ideas. human intervention Could be static or dynamic, This is an interesting question describing thec oast in terms of a dissipative system might allow us to tie this in to system ideas. human intervention Reduces the shores adaptve cpacity, This is an interesting question describing thec oast in terms of a dissipative system might allow us to tie this in to system ideas. human intervention Forces change in the shore shape, Something else (I don't know if I've mentioned to you before), was a comment by Schellnuber when he came to ncl earlier this year. He was interested in whether our results could be used to determine whether the shore system is always better off, in the long run, with no engineering intervention, when it is responding to climate change. Apparently there is a discussion going on amongst earth system scientists about whether this is true for natural systems, whether (I suppose) left to their own behaviours they will adapt in the most efficient manner to new climate conditions. JS was interested to know whether we could answer this question for our coast, I guess we could. It might be worth speculating on this in the CC paper? i guess I guess this could be approached by quantity the total erosion in each case, surface area of land lost (behind the cliff toe for example) and compare the 'Abandonment' scenario with all the others. Also a comparison could be made with the hypothetical scenario where nothing was built in the first place. Ahh, I guess all the scenarios would have to be rerun for longer, and with all structures being pulled out, and the system left to get back to dynamic equilibrium. Do you fancy running all those again? Only kidding, well done for getting the whole lot done twice already., (Marine Geology) Interpretation of parallel retreat issues n.b. Quick?, Review of literature order Papers, 3D shore erosion of STL shores their Plan shape, 3D shore erosion of STL shores their Profile response, Profile response to Tidal range, Profile response to SLR, Profile response to Beach, Profile response to Wave conditions, Profile response to Material strength, Numerical conceptual/ numerical model provides holistic framework for interpretation discussing Discussion of beaches and platforms shaping each other, (Marine Geology) 2D shore erosion of SL coasts perhaps instead Dynamics of eroding rock shores, (Marine Geology) 2D shore erosion of SL coasts their Profile response, Paper titles (Geology) Modes of erosion of sea cliffs, Paper titles (JCR) Intro to regional scale modelling, identification of SL and STL cerosion modes, Paper titles (Marine Geology) Interpretation of parallel retreat issues, Paper titles (CE) Mesoscale model of soft rock sshores, Paper titles (CC) Climatic impacts on the NN coast, Paper titles (Nature) Mesoscale complex systems earths systems engineering model of climate change impacts on an eroding coast, Paper titles Cliff erosion and depositional features of the North Norfolk coast, Paper titles Implications for coastal management, Paper titles (Marine Geology) 2D shore erosion of SL coasts, Paper titles 3D shore erosion of STL shores, (Geology) Modes of erosion of sea cliffs steps Locating observations in lit in the new conceptual model, (Geology) Modes of erosion of sea cliffs steps Simple numerical models to illustrate behaviours described in lit review, (Geology) Modes of erosion of sea cliffs steps Numerical conceptual/ numerical model provides holistic framework for interpretation, (Geology) Modes of erosion of sea cliffs steps Review of literature, (Geology) Modes of erosion of sea cliffs steps Conclusions, Numerical conceptual/ numerical model provides holistic framework for interpretation explaining Disparate observations, Numerical conceptual/ numerical model provides holistic framework for interpretation explaining Contradictions, (Marine Geology) Interpretation of parallel retreat issues or Parallel retreat of eroding rock shores, 3D shore erosion of STL shores for Coastal management journal?, Plan shape to Tidal range, Plan shape to SLR, Plan shape to Beach, Plan shape to Wave conditions, Plan shape to Material strength, Beach therefore Beach volume, Beach therefore Sediment content/ cliff height, (Nature) Mesoscale complex systems earths systems engineering model of climate change impacts on an eroding coast provides Intellectual context of SCAPE, (Nature) Mesoscale complex systems earths systems engineering model of climate change impacts on an eroding coast provides ESEM context, Hypothesis is it possible to engineer a shore so as to reduce the volume of material removed as a consequence of climate change? simplification Only one type of sructure? seawalls?, Beach issue Whole paper in this alone, Beach issue Static or dynamic, Profile response of Basic Naze model, Review of literature focus on Headlines, Coastal management journal? therefore Low impact factor, Review of literature categorise Into conceptual model, Marks message insert here thoughts This is an interesting question describing thec oast in terms of a dissipative system might allow us to tie this in to system ideas., Marks message insert here thoughts Hypothesis is it possible to engineer a shore so as to reduce the volume of material removed as a consequence of climate change?, Marks message insert here thoughts Along shore processes are really important, e.g. happisburgh wherer the coast has over reacted, (CC) Climatic impacts on the NN coast perhaps include Something else (I don't know if I've mentioned to you before), was a comment by Schellnuber when he came to ncl earlier this year. He was interested in whether our results could be used to determine whether the shore system is always better off, in the long run, with no engineering intervention, when it is responding to climate change. Apparently there is a discussion going on amongst earth system scientists about whether this is true for natural systems, whether (I suppose) left to their own behaviours they will adapt in the most efficient manner to new climate conditions. JS was interested to know whether we could answer this question for our coast, I guess we could. It might be worth speculating on this in the CC paper?, Implications for coastal management e.g. Beach renourishment, Simple numerical models to illustrate behaviours described in lit review explaining Disparate observations, Simple numerical models to illustrate behaviours described in lit review explaining Contradictions, Beach therefore Beach grain size, Beach therefore Beach volume, Beach therefore Sediment content/ cliff height, 3D shore erosion of STL shores generally more Uncertainty in science, 3D shore erosion of STL shores generally more Coastal management oriented, 3D shore erosion of STL shores generally more Site specific, 3D shore erosion of STL shores generally more Covered in JCR/climatic change papers, Static beach but bulked by additional sediment released? perhaps Liken to a naturally sbalanced system where the amount of loss exactly equaled th amount released from the cliff, Static beach but bulked by additional sediment released? perhaps Model with assumption that the rate of sediment removal is unchanging, Varying sensitivity to SLR with different beach volumes with different Beach, Varying sensitivity to SLR with different beach volumes with different Material strength, Varying sensitivity to SLR with different beach volumes with different Tidal range, Numerical conceptual/ numerical model provides holistic framework for interpretation using CE paper, Numerical conceptual/ numerical model provides holistic framework for interpretation using CC paper, Numerical conceptual/ numerical model provides holistic framework for interpretation using JCR paper, Only one type of sructure? seawalls? advantage This is simple and the effects are high up the profile, so away from the dificult area close to the closure depth, Profile response to Tidal range, Profile response to SLR??, Profile response to Material strength, Profile response to Beach, Profile response to Wave conditions