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MakeFigures.m
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MakeFigures.m
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%% Plot Wiggle OverLay Velocity
if isLoadMxHL
MxHLFilename = 'GTC15SpurWMxHL.mat';
% Load MxHL structure
load(MxHLFilename);
% Write Unpacked Structure Variables to .m file
structvars(GTC15SpurWMxHL);
% Run .m to Evaluate structvars
tmpvars
delete tmpvars.m
clear GTC15SpurWMxHL
end
if isDepthSection
for ii = 1:nFiles
%Create Transparancy Mask
WiggleAlpha = sign(RadarDepth{ii}); WiggleAlpha(WiggleAlpha<0) = 0;
WiggleAlpha = conv2(WiggleAlpha,triang(3),'same')./sum(triang(3));
WiggleAlpha = WiggleAlpha.*(tukeywin(size(WiggleAlpha,1),.09).*ones(1,size(WiggleAlpha,2)));
WiggleAlpha(WiggleAlpha<1) = 0;
% Plot Density, Overlay Peak Amplitudes
figure();imagesc(Traverse{ii}./1000,DepthAxis{ii},1000.*DensityModel{ii});colormap(yet_white);freezeColors;hold on;
imagesc(Traverse{ii}./1000,DepthAxis{ii},sign(RadarDepth{ii}),'AlphaData',WiggleAlpha);colormap([0,0,0]);freezeColors;
colormap(yet_white);hlay = colorbar; set(hlay,'YDir','reverse','fontsize',14,'fontweight','bold','Ticks',[310,350,400,450,500,550,600,625]);
set(get(hlay,'ylabel'),'String','Density [kg/m^{3}]', 'rotation', 270,'Units', 'Normalized', 'Position', [4, 0.5, 0])
title('Density Tomogram')
xlabel('Distance (km)')
ylabel('Depth (m)','rotation',270, 'Units', 'Normalized', 'Position', [-0.05, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold')
set(gca,'YTick',[0,2.5,5,7.5,10,12.5,15,17.5,20,22.5])
% Plot Density Anamoly, Overlay Peak Amplitudes
% figure();imagesc(Traverse{ii}./1000,DepthAxis{ii},1000.*DensityAnomalyModel{ii});colormap(colorbrew);caxis([-15,15]);freezeColors;hold on;
% % plot(Traverse{ii},depth550,'--k','linewidth',3);
% imagesc(Traverse{ii},DepthAxis{ii},sign(RadarDepth{ii}),'AlphaData',WiggleAlpha);colormap([0,0,0]);freezeColors;
% % colormap(SplitJet);hlay = colorbar; %set(hlay,'YDir','reverse','fontsize',14,'fontweight','bold');
% colormap(colorbrew);hlay = colorbar;
figure();
imagesc(Traverse{ii}./1000,DepthAxis{ii},1000.*DensityAnomalyModel{ii});colormap(colorbrew);caxis([-15,15]);freezeColors;hold on;
imagesc(Traverse{ii}./1000,DepthAxis{ii},sign(RadarDepth{ii}),'AlphaData',WiggleAlpha);colormap([0,0,0]);freezeColors;
colormap(colorbrew);hlay = colorbar;
set(get(hlay,'ylabel'),'String','Deviation from Mean Density [kg/m^{3}]', 'rotation', 270,'Units', 'Normalized', 'Position', [4, 0.5, 0])
title('Density Anomaly')
xlabel('Distance (km)')
ylabel('Depth (m)','rotation',270, 'Units', 'Normalized', 'Position', [-0.05, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold')
set(gca,'YTick',[0,2.5,5,7.5,10,12.5,15,17.5,20,22.5])
figure();
hDA1 = subplot(2,1,1);
% Plot Mean Average Density Deviation
% plot(Traverse{ii},1000.*MeanDensityDeviation{ii},'k','linewidth',3)
% title('Mean Average Deviation - Density [kg/m^{3}]')
% Plot Surface Density Deviation
plot(Traverse{ii}./1000,1000.*SurfaceDensityDeviation{ii},'k','linewidth',3)
title('Surface Density - Deviation from Mean (kg/m^{3})')
grid on
set(gca,'fontsize',14,'fontweight','bold')
% set(hDA1,'units','normalized')
% hDA1pos = get(hDA1,'Position');
% set(hDA1,'position',[hDA1pos(1),hDA1pos(2)+.25, hDA1pos(3), hDA1pos(2)-.25])
hDA2 = subplot(2,1,2);
% Plot Density Anamoly, Overlay Peak Amplitudes
imagesc(Traverse{ii}./1000,DepthAxis{ii},1000.*DensityAnomalyModel{ii});colormap(colorbrew);caxis([-15,15]);freezeColors;hold on;
imagesc(Traverse{ii}./1000,DepthAxis{ii},sign(RadarDepth{ii}),'AlphaData',WiggleAlpha);colormap([0,0,0]);freezeColors;
colormap(colorbrew);hlay = colorbar;
% colormap(SplitJet);hlay = colorbar; %set(hlay,'YDir','reverse','fontsize',14,'fontweight','bold');
set(get(hlay,'ylabel'),'String','Deviation from Mean Density (kg/m^{3})', 'rotation', 270,'Units', 'Normalized', 'Position', [4, 0.5, 0])
title('Density Anomaly')
xlabel('Distance (km)')
ylabel('Depth (m)','rotation',270, 'Units', 'Normalized', 'Position', [-0.05, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold')
set(gca,'YTick',[0,2.5,5,7.5,10,12.5,15,17.5,20,22.5])
% Plot Depth-Age Tomography
figure();imagesc(Traverse{ii}./1000,DepthAxis{ii},AgeModel{ii});colormap(yet_white);freezeColors;hold on;
imagesc(Traverse{ii}./1000,DepthAxis{ii},sign(RadarDepth{ii}),'AlphaData',WiggleAlpha);colormap([0,0,0]);freezeColors;
colormap(yet_white);hlay = colorbar; set(hlay,'YDir','reverse','fontsize',14,'fontweight','bold','Ticks',[Ages{ii}]);
for kk = 1:size(DepthAge{ii},2)
plot(linspace(Traverse{ii}(1)./1000,Traverse{ii}(end)./1000,length(Traverse{ii})),DepthAge{ii}(:,kk),'k','linewidth',3)
end
set(get(hlay,'ylabel'),'String','Age (a)', 'rotation', 270,'Units', 'Normalized', 'Position', [4, 0.5, 0])
set(gca,'YTick',[0,2.5,5,7.5,10,12.5,15,17.5,20,22.5])
title('Isochronogram')
xlabel('Distance (km)')
ylabel('Depth (m)','rotation',270, 'Units', 'Normalized', 'Position', [-0.08, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold')
end
%% Image Depth Section
for ii = 1:nFiles
% figure();imagesc(Traverse{ii},DepthAxis{ii},RadarDepth{ii});
% figure();imagesc(Traverse{ii}./1000,DepthAxis{ii},AGCgain(RadarDepth{ii},size(RadarDepth{ii},1)./round(5),2));
% colormap(cmapAdapt(RadarDepth{ii},colorbrew));hold on;
figure();imagesc(Traverse{ii}./1000,DepositionAxis{ii},AGCgain(RadarDeposition{ii},size(RadarDeposition{ii},1)./round(5),2));
colormap(cmapAdapt(RadarDeposition{ii},colorbrew));hold on;
% for kk = 1:size(DepthAge{ii},2)
% plot(linspace(Traverse{ii}(1)./1000,Traverse{ii}(end)./1000,length(Traverse{ii})),DepthAge{ii}(:,kk),'color',c3,'linewidth',2)
% end
% for kk = 1:size(DepthAge{ii},2)
% plot(Traverse{ii},DepthAge{ii}(:,kk),'k','linewidth',3)
% end
% title('Core 15 Spur West - Depth Section')
title('Core 15 Spur West - Age Section')
xlabel('Distance (km)')
% ylabel('Depth (m)','rotation',270, 'Units', 'Normalized', 'Position', [-0.05, 0.5, 0])
ylabel('age (a)','rotation',270, 'Units', 'Normalized', 'Position', [-0.05, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold')
% Plot RadarGram with Isochrones
% figure();imagesc(Traverse{ii},DepthAxis{ii},RadarDepth{ii});
figure();imagesc(Traverse{ii}./1000,DepthAxis{ii},AGCgain(RadarDepth{ii},size(RadarDepth{ii},1)./round(3.5),2));
colormap(cmapAdapt(RadarDepth{ii},colorbrew));hold on;
for kk = 1:size(DepthAge{ii},2)
plot(linspace(Traverse{ii}(1)./1000,Traverse{ii}(end)./1000,length(Traverse{ii})),DepthAge{ii}(:,kk),'color',c3,'linewidth',2)
end
% Compare Time to Depth Images
% compareIx = 7550:11500;
compareIx = 7390:11550;
compareIy = 165:565;
% Salt and Pepper Time Image
figure();
pcolor(Traverse{ii}(compareIx)./1000,tStack{ii}(compareIy,1),AGCgain(RadarStack{1}(compareIy,compareIx),size(Radar{ii}(:,:),1)./round(7.5),2)); shading interp; axis ij
colormap(cmapAdapt(RadarStack{1}(compareIy,compareIx),colorbrew));hold on;
% subplot(2,1,1)
% imagesc(Traverse{ii}(:)./1000,tStack{ii}(:,1),AGCgain(RadarNMO{8}(:,:),size(Radar{ii}(:,:),1)./round(3.5),2));
% colormap(cmapAdapt(Radar{4}(compareIy,compareIx),colorbrew));hold on;
% imagesc(Traverse{ii}(compareIx)./1000,tStack{ii}(compareIy,1),AGCgain(RadarNMO{8}(compareIy,compareIx),size(Radar{ii}(compareIy,compareIx),1)./round(3.5),2));
% colormap(cmapAdapt(Radar{4}(compareIy,compareIx),colorbrew));hold on;
% title('Core 15 Spur West - Time Section')
title('Time Section')
xlabel('Distance (km)')
ylabel('Travel-Time (ns)','rotation',270, 'Units', 'Normalized', 'Position', [-0.05, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold','layer','top')
daspect([1 8.5 1])
% axis square
% compareIy = 150:550;
compareIy = 150:1000;
% Bread and Butter Depth Image
figure();
% subplot(2,1,2)
% imagesc(Traverse{ii}(compareIx)./1000,DepositionAxis{ii}(compareIy),AGCgain(RadarDeposition{ii}(compareIy,compareIx),size(RadarDeposition{ii}(compareIy,compareIx),1)./round(3.5),2));
pcolor(Traverse{ii}(compareIx)./1000,DepositionAxis{ii}(compareIy),AGCgain(RadarDeposition{ii}(compareIy,compareIx),size(RadarDeposition{ii}(compareIy,compareIx),1)./round(5),2));shading interp, axis ij
colormap(cmapAdapt(RadarDeposition{ii}(compareIy,compareIx),colorbrew));hold on;
% for kk = 1:length(isochronePick)
% plot(Traverse{ii}(compareIx)./1000,isochronePick{kk}(compareIx),'k','linewidth',2)
% end
% imagesc(Traverse{ii}(compareIx)./1000,DepthAxis{ii}(compareIy),AGCgain(RadarDepth{ii}(compareIy,compareIx),size(RadarDepth{ii}(compareIy,compareIx),1)./round(3.5),2));
% colormap(cmapAdapt(RadarDepth{ii}(compareIy,compareIx),colorbrew));hold on;
% title('Core 15 Spur West - Depth Section')
% title('Core 15 Spur West - Age Section')
% title('Depth Section')
title('Age Section')
xlabel('Distance (km)')
% ylabel('Depth (m)','rotation',270, 'Units', 'Normalized', 'Position', [-0.05, 0.5, 0])
ylabel('Age (a)','rotation',270, 'Units', 'Normalized', 'Position', [-0.05, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold')
% daspect([1 1 1])
daspect([1 2 1])
% text(.65,-.25,'1000x Vertical Exaggeration','units','normalized','fontsize',10,'fontweight','bold')
% axis square
figure();
compareIy = 150:600;
% subplot(2,1,2)
% imagesc(Traverse{ii}(compareIx)./1000,DepthAxis{ii}(compareIy),AGCgain(RadarDepth{ii}(compareIy,compareIx),size(RadarDepth{ii}(compareIy,compareIx),1)./round(3.5),2));
% colormap(cmapAdapt(RadarDepth{ii}(compareIy,compareIx),colorbrew));hold on;
pcolor(Traverse{ii}(compareIx)./1000,DepthAxis{ii}(compareIy),AGCgain(RadarDepth{ii}(compareIy,compareIx),size(RadarDepth{ii}(compareIy,compareIx),1)./round(3.5),2)); shading interp; axis ij;
colormap(cmapAdapt(RadarDepth{ii}(compareIy,compareIx),colorbrew));hold on;
% title('Core 15 Spur West - Depth Section')
title('Depth Section')
xlabel('Distance (km)')
ylabel('Depth (m)','rotation',270, 'Units', 'Normalized', 'Position', [-0.05, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold','layer','top')
daspect([1 1 1])
text(.65,-.25,'1000x Vertical Exaggeration','units','normalized','fontsize',10,'fontweight','bold')
% axis square
% Plot Depth-Age Tomography
figure();pcolor(Traverse{ii}(compareIx)./1000,DepthAxis{ii}(compareIy),bestAgeModel{ii}(compareIy,compareIx));colormap(yet_black);freezeColors;hold on;
% imagesc(Traverse{ii},DepthAxis{ii},sign(RadarDepth{ii}),'AlphaData',WiggleAlpha);colormap([0,0,0]);freezeColors;
colormap(yet_white); shading interp;axis ij
%hlay = colorbar; set(hlay,'YDir','reverse','fontsize',14,'fontweight','bold','Ticks',[5.5:5:20.5],'TickLabels',[2012,2007,2002,1997]);
% for kk = 1:size(DepthAge{ii},2)
% plot(Traverse{ii}(compareIx)./1000,DepthAge{ii}(compareIx,kk),'k','linewidth',1.5)
% end
contour(Traverse{ii}(compareIx)./1000,DepthAxis{ii}(compareIy),bestAgeModel{ii}(compareIy,compareIx),7:5:17,'k','linewidth',1.5)
% set(get(hlay,'ylabel'),'String','Age (a)', 'rotation', 270,'Units', 'Normalized', 'Position', [4, 0.5, 0])
% set(gca,'YTick',[4,6,8,10])
% title('Core 15 Spur West - Age-Depth Section')
title('Age-Depth Section')
xlabel('Distance (km)')
ylabel('Depth (m)','rotation',270, 'Units', 'Normalized', 'Position', [-0.08, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold','layer','top')
daspect([1 1 1])
text(.65,-.25,'1000x Vertical Exaggeration','units','normalized','fontsize',10,'fontweight','bold')
% Age-Travel-Time Model
% compareIx = 7550:11500;
compareIx = 7390:11550;
compareIy = 165:565;
figure();pcolor(Traverse{ii}(compareIx)./1000,TimeAxis{ii}(compareIy),pseudoAgeModel{ii}(compareIy,compareIx));
hold on;shading interp;axis ij;
colormap(yet_white);
tmpAges = 7:5:17;
for kk = 1:length(tmpAges)
[~,tmpIx] = min(abs(pseudoAgeModel{ii}(compareIy,compareIx)-tmpAges(kk)));
psuedoAgeIx(kk,:) = tmpIx;
end
% psuedoAgeIx = find(pseudo
contour(Traverse{ii}(compareIx)./1000,TimeAxis{ii}(compareIy),pseudoAgeModel{ii}(compareIy,compareIx),7:5:17,'k','linewidth',1.5)
title('Age-Travel-Time Section')
xlabel('Distance (km)')
ylabel('Travel-Time (ns)','rotation',270, 'Units', 'Normalized', 'Position', [-0.08, 0.5, 0])
set(gca,'fontsize',14,'fontweight','bold','layer','top')
daspect([1 8.5 1])
% Plot Age-Travel-Time Perturbations
tmpResidual = updatePseudoAgeModel{ii}(compareIy,compareIx)-pseudoAgeModel{ii}(compareIy,compareIx);
figure();
pcolor(Traverse{ii}(compareIx)./1000,TimeAxis{ii}(compareIy),tmpResidual);
shading interp; axis ij; colormap(cmapAdapt(tmpResidual,SplitJet));
freezeColors;
c = colorbar; c.Location = 'northoutside';c.Label.String = 'Age Perturbations (\Delta a)';
c.FontSize = 12; c.Label.FontSize = 16;
set(gca,'fontsize',14,'fontweight','bold','layer','top')
daspect([1 8.5 1])
xlabel('Distance (km)')
ylabel('Travel-Time (ns)','rotation',270, 'Units', 'Normalized', 'Position', [-0.08, 0.5, 0])
% Plot Recalculated Age-Travel-Time Perturbations
compareIy = 150:600;
tmpResidual = perturbations(compareIy,compareIx);%updatePseudoAgeModel{ii}(compareIy,compareIx)-pseudoAgeModel{ii}(compareIy,compareIx);
figure();
pcolor(Traverse{ii}(compareIx)./1000,DepthAxis{ii}(compareIy),tmpResidual);
shading interp; axis ij;colormap(cmapAdapt(tmpResidual,SplitJet));%caxis([-0.5,0.5])% colormap(cmapAdapt(tmpResidual,SplitJet));
colormap(cmapAdapt(tmpResidual,SplitJet))
% freezeColors;
c = colorbar; c.Location = 'northoutside';c.Label.String = 'Age Perturbations (\Delta a)';
c.FontSize = 12; c.Label.FontSize = 16;
set(gca,'fontsize',14,'fontweight','bold','layer','top')
daspect([1 1 1])
xlabel('Distance (km)')
ylabel('Depth (m)','rotation',270, 'Units', 'Normalized', 'Position', [-0.08, 0.5, 0])
text(.65,-.25,'1000x Vertical Exaggeration','units','normalized','fontsize',10,'fontweight','bold')
end
% Plot Accumulation
q = quantile(tmpAccum(:),[.025,0.975]);
figure();
% subplot(4,1,1)
plot(Traverse{ii}./1000,AverageAccumulation{ii},'k','linewidth',2);
hold on;
plot(Traverse{ii}./1000,AverageAccumulation2{ii},'r','linewidth',2)
plot(Traverse{ii}./1000,AverageAccumulation3{ii},'b','linewidth',2)
set(gca,'fontsize',10,'fontweight','bold')
figure();
subplot(3,1,1)
% Initial Accumulation
imagesc(Traverse{ii}./1000,DepthAxis{ii},initAccum,q);colormap(yet_white);
set(gca,'fontsize',10,'fontweight','bold','xticklabel',[])
subplot(3,1,2)
% First Update Accumulation
pcolor(Traverse{ii}./1000,DepthAxis{ii},instantDoom);shading interp;colormap(yet_white); axis ij;
set(gca,'fontsize',10,'fontweight','bold','layer','top','xticklabel',[]);caxis([q]);
subplot(3,1,3)
% Sencond Update Accumulation
pcolor(Traverse{ii}./1000,DepthAxis{ii},tmpAccum);shading interp;colormap(yet_white);axis ij;
set(gca,'fontsize',10,'fontweight','bold','layer','top');caxis([q])
% Compare GTC15 SMB and MXHL SMB
x = Annuals;
X = [x;x];%flipud(x)]
X = sort(X(:));
Xx = [X(2:end);flipud(X(2:end-2))];
y = bin(:,1);y = y(:);
% Stairs
X = X(2:end-1);
Y = [y,y]'; Y = Y(:);
ci = sqrt(binVar(:,1));
yl = y - ci;
yh = y+ci;
% stairs(x,yl);stairs(x,yh)
Yyh = [yh,yh]';Yyh = Yyh(:);
Yyl = [flipud(yl),flipud(yl)]';Yyl = Yyl(:);
Yy = [Yyh;Yyl];
figure();
stairs([Accumulation(1,15);Accumulation(1:33,15)],[2017;Accumulation(1:33,17)],'k','linewidth',2.5);hold on
% patch(Yy,Xx,[0.75 0 0],'FaceAlpha',.25); hold on
plot(Y,X,'color',[0.75,0,0],'linewidth',2.5)
ylabel('Year (CE)')
xlabel('SMB (m w.e. a^{-1})')
title({['Annual Surface Mass Balance']; ['Jan.1984 - Jan.2017']})
set(gca,'fontweight','bold','fontsize',14)
legend('GTC15','MXHL','location','southeast')
ylim([1984 2017])
yticks(fliplr([2017,2010,2000,1990,1984]))
figure();
stairs(GTCdepthAge(:,2),GTCdepthAge(:,1),'k')
hold on;
tmpAgeModel = abs(bestAgeModel{1}(:,1)-(str2num(Year{1})+dayofyear/365));
stairs(tmpAgeModel,DepthAxis{1},'r');
% % Zstair = [DepthAxis{1};DepthAxis{1}];
% Zstair = [Annuals(1:end-1),flipud(Annuals(1:end-1))];
% [Zstair,Zix] = sort(Zstair);
% Zstairz = [Zstair(1:end);flipud(Zstair(1:end))]';
% Zstairz = flipud(Zstairz);
% mxhlSMBlow = [bin(:,1)-sqrt(binVar(:,1));bin(:,1)-sqrt(binVar(:,1))];
% mxhlSMBlow = mxhlSMBlow(Zix);
% mxhlSMBhi = [bin(:,1)+sqrt(binVar(:,1));bin(:,1)+sqrt(binVar(:,1))];
% mxhlSMBhi = mxhlSMBhi(Zix);
% mxhlSMBci = [mxhlSMBlow(:,:),flipud(mxhlSMBhi(:,:))];
%
% figure();
% patch(mxhlSMBci(2:2:end,1),Zstairz(1:2:end-1,1),[.5 0 0 ],'FaceAlpha',0.35);hold on;
% stairs(bin(:,1),Annuals(1:end-1));
end
%% Create Figures for Snow Surface Data
if isSWEDISH
% plot Direct Wave Data
for ii = 1:nFiles
figure();
subplot(3,1,1)
for dh = 2:nDirectHorizon
shadedErrorBarT8([],dhSnowWaterEqv{dh,ii},...
sqrt(dhSnowWaterEqvVar{dh,ii}),1,{'Color',[0.5,0,0],'linewidth',1.5});
hold on;
end
freezeColors
axis tight
axis ij
grid on
title('Accumulation [m w.e.]')
subplot(3,1,2)
for dh = 2:nDirectHorizon
shadedErrorBarT8([],dhDensity{dh,ii}.*1000,...
sqrt(dhDensityVar{dh,ii}).*1000,1,{'Color',[0,0,.5],'linewidth',1.5});
hold on;
end
freezeColors
axis tight
axis ij
grid on
title('Average Density [kg/m^{3}]')
subplot(3,1,3)
for dh = 2:nDirectHorizon
shadedErrorBarT8([],dhDepth{dh,ii},...
sqrt(dhDepthVar{dh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
hold on;
end
freezeColors
axis tight
axis ij
grid on
title('Depth [m]')
set(findobj(gcf,'type','axes'),'FontName','Arial','FontSize',12,...
'FontWeight','Bold', 'LineWidth', 1);
end
% Plot Reflection Data
for ii = 1:nFiles
figure();
subplot(3,1,1)
for rh = 1:nReflectionHorizon
shadedErrorBarT8(Traverse{ii}./1000,SnowWaterEqv{rh,ii},...
sqrt(SnowWaterEqvVar{rh,ii}),1,{'Color',c1,'linewidth',1.5});
hold on;
end
freezeColors
axis tight
axis ij
grid on
title('Average Annual Accumulation [m w.e. a^{-1}]')
subplot(3,1,2)
for rh = 1:nReflectionHorizon
shadedErrorBarT8(Traverse{ii}./1000,Density{rh,ii}.*1000,...
sqrt(DensityVar{rh,ii}).*1000,1,{'Color',[0,0,0],'linewidth',1.5});
hold on;
end
freezeColors
axis tight
axis ij
grid on
title('Average Snow Density [kg/m^{3}]')
subplot(3,1,3)
for rh = 1:nReflectionHorizon
shadedErrorBarT8(Traverse{ii}./1000,Depth{rh,ii},...
sqrt(DepthVar{rh,ii}),1,{'Color',c3,'linewidth',1.5});
hold on;
end
freezeColors
axis tight
axis ij
grid on
title('Snow Depth [m]')
xlabel('Distance [km]')
set(findobj(gcf,'type','axes'),'FontName','FreeSerif','FontSize',12,...
'FontWeight','Bold', 'LineWidth', 1);
end
end
%% Joint Figure for Snow Surface Data
if isSWEDISH
% plot Direct Wave Data
for ii = 1:nFiles
distance = Traverse{ii};
figure();
subplot(3,1,1)
% for dh = 2:nDirectHorizon
% shadedErrorBarT8(distance,dhDepth{dh,ii},...
% sqrt(dhDepthVar{dh,ii}),1,{'Color',[1,0.81,0],'linewidth',1.5});
% hold on;
% end
for rh = 1:nReflectionHorizon
shadedErrorBarT8(distance./1000,Depth{rh,ii},...
sqrt(DepthVar{rh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
% sqrt(DepthVar{rh,ii}),1,{'Color',[1,0.81,0],'linewidth',1.5});
hold on;
end
freezeColors
axis ij
axis tight
grid on
ylim([1.6 2.2])
set(gca,'ytick',[1.6,1.8,2.0,2.2])
set(gca,'xticklabel',[])
title('Snow Depth (m)')
subplot(3,1,2)
for dh = 2:nDirectHorizon
shadedErrorBarT8(distance,dhDensity{dh,ii}.*1000,...
sqrt(dhDensityVar{dh,ii}).*1000,1,{'Color',[0,0,0],'linewidth',1.5});
% sqrt(dhDensityVar{dh,ii}).*1000,1,{'Color',[0.5,0,0],'linewidth',1.5});
hold on;
end
for rh = 1:nReflectionHorizon
shadedErrorBarT8(distance,Density{rh,ii}.*1000,...
sqrt(DensityVar{rh,ii}).*1000,1,{'Color',[0,0,0],'linewidth',1.5});
% sqrt(DensityVar{rh,ii}).*1000,1,{'Color',[0.5,0,0],'linewidth',1.5});
hold on;
end
freezeColors
axis ij
axis tight
grid on
set(gca,'xticklabel',[])
set(gca,'ytick',[350,375,400])
title('Average Density (kg/m^{3})')
subplot(3,1,3)
% for dh = 2:nDirectHorizon
% shadedErrorBarT8(distance,dhSnowWaterEqv{dh,ii},...
% sqrt(dhSnowWaterEqvVar{dh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
% hold on;
% end
for rh = 1:nReflectionHorizon
shadedErrorBarT8(distance,AverageAccumulation{ii},...
sqrt(SnowWaterEqvVar{rh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
% shadedErrorBarT8(distance,SnowWaterEqv{rh,ii},...
% sqrt(SnowWaterEqvVar{rh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
hold on;
end
freezeColors
axis tight
axis ij
grid on
set(gca,'ytick',[0.24,0.27,0.3,0.33])
title('Average Annual Accumulation (m w.e. a^{-1})')
set(gca,'xtick',1000.*[0, 20, 40, 60, 78])
set(gca,'xticklabel',[0,20,40,60,78])
xlabel('Distance (km)')
set(findobj(gcf,'type','axes'),'FontName','FreeSerif','FontSize',12,...
'FontWeight','Bold', 'LineWidth', 1);
end
end
%% JOG Figures
if isSWEDISH
% plot Direct Wave Data
for ii = 1:nFiles
distance = Traverse{ii};
figure();
subplot(4,1,1)
% for dh = 2:nDirectHorizon
% shadedErrorBarT8(distance,dhDepth{dh,ii},...
% sqrt(dhDepthVar{dh,ii}),1,{'Color',[1,0.81,0],'linewidth',1.5});
% hold on;
% end
for rh = 1:nReflectionHorizon
shadedErrorBarT8(distance./1000,Depth{rh,ii},...
sqrt(DepthVar{rh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
% sqrt(DepthVar{rh,ii}),1,{'Color',[1,0.81,0],'linewidth',1.5});
hold on;
end
freezeColors
axis ij
axis tight
grid on
ylim([1.6 2.2])
set(gca,'ytick',[1.6,1.8,2.0,2.2])
set(gca,'xticklabel',[])
title('Snow Depth (m)')
subplot(4,1,2)
for dh = 2:nDirectHorizon
shadedErrorBarT8(distance,dhDensity{dh,ii}.*1000,...
sqrt(dhDensityVar{dh,ii}).*1000,1,{'Color',[0,0,0],'linewidth',1.5});
% sqrt(dhDensityVar{dh,ii}).*1000,1,{'Color',[0.5,0,0],'linewidth',1.5});
hold on;
end
for rh = 1:nReflectionHorizon
shadedErrorBarT8(distance,Density{rh,ii}.*1000,...
sqrt(DensityVar{rh,ii}).*1000,1,{'Color',[0,0,0],'linewidth',1.5});
% sqrt(DensityVar{rh,ii}).*1000,1,{'Color',[0.5,0,0],'linewidth',1.5});
hold on;
end
freezeColors
axis ij
axis tight
grid on
set(gca,'xticklabel',[])
set(gca,'ytick',[350,375,400])
title('Average Density (kg/m^{3})')
subplot(4,1,3)
shadedErrorBarT8(distance,ForcingDensity{rh,ii}.*1000,...
sqrt(ForcingDensityVar{rh,ii}).*1000,1,{'Color',[0,0,0],'linewidth',1.5});
% sqrt(DensityVar{rh,ii}).*1000,1,{'Color',[0.5,0,0],'linewidth',1.5});
freezeColors
axis ij
axis tight
grid on
set(gca,'xticklabel',[])
set(gca,'ytick',[350,375,400])
title('Average Density (kg/m^{3})')
subplot(4,1,4)
% for dh = 2:nDirectHorizon
% shadedErrorBarT8(distance,dhSnowWaterEqv{dh,ii},...
% sqrt(dhSnowWaterEqvVar{dh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
% hold on;
% end
for rh = 1:nReflectionHorizon
shadedErrorBarT8(distance,AverageAccumulation{ii},...
sqrt(SnowWaterEqvVar{rh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
% shadedErrorBarT8(distance,SnowWaterEqv{rh,ii},...
% sqrt(SnowWaterEqvVar{rh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
hold on;
end
freezeColors
axis tight
axis ij
grid on
set(gca,'ytick',[0.24,0.27,0.3,0.33])
title('Average SMB (m w.e. a^{-1})')
set(gca,'xtick',1000.*[0, 20, 40, 60, 78])
set(gca,'xticklabel',[0,20,40,60,78])
xlabel('Distance (km)')
set(findobj(gcf,'type','axes'),'FontName','FreeSerif','FontSize',12,...
'FontWeight','Bold', 'LineWidth', 1);
end
end
%% Compare Average Accumulation
if (isPickDepthHorizons || isLoadDepthHorizons) && (isPickAgeHorizons || isLoadIRH)
for ii = 1:nFiles
distance = Traverse{ii}./1000;
figure(); hold on;
% shadedErrorBarT8(distance,AverageAccumulation2{ii},...
% sqrt(varAccumulation2{ii}),1,{'Color',[0,0,0],'linewidth',1.5});
% freezeColors
shadedErrorBarT8(distance,AverageAccumulation3{ii},...
sqrt(varAccumulation3{ii}),1,{'Color',[0,0,0],'linewidth',3});
freezeColors
for rh = 1:nReflectionHorizon
shadedErrorBarT8(distance,AverageAccumulation{ii},...
sqrt(SnowWaterEqvVar{rh,ii}),1,{'Color',[0.5,0,0],'linewidth',2});
end
freezeColors
axis tight
axis ij
grid on
alpha(0.5)
% title('Average Annual Accumulation (m w.e. a^{-1})')
title({['\fontsize{14}Average Annual Accumulation'];...
['\fontsize{12}\color[rgb]{0.5 0 0}Jan.2015-Jan.2017 \color[rgb]{0 0 0}Jan.1984-Jan.2017']})
set(gca,'xtick',[0, 20, 40, 60, 78])
set(gca,'xticklabel',[0,20,40,60,78])
set(gca,'fontsize',12,'fontweight','bold','layer','top')
xlabel('Distance (km)')
ylabel('(m w.e. a^{-1})')
set(findobj(gcf,'type','axes'),'FontName','FreeSerif','FontSize',12,...
'FontWeight','Bold', 'LineWidth', 1);
% Compage GTC15 Density
for ii = 1:nFiles
distance = Traverse{ii}./1000;
figure(); hold on;
% shadedErrorBarT8(distance,AverageAccumulation2{ii},...
% sqrt(varAccumulation2{ii}),1,{'Color',[0,0,0],'linewidth',1.5});
% freezeColors
shadedErrorBarT8(distance,AverageAccumulation3{ii},...
sqrt(SnowWaterEqvVar{1,ii}),1,{'Color',[0,0,0],'linewidth',2});
% sqrt(varAccumulation3{ii}),1,{'Color',[0,0,0],'linewidth',3});
freezeColors
for rh = 1:nReflectionHorizon
shadedErrorBarT8(distance,GTCaccumulation,...
sqrt(SnowWaterEqvVar{rh,ii}),1,{'Color',[0.5,0,0],'linewidth',2});
alpha(0.5)
end
freezeColors
axis tight
axis ij
grid on
% title('Average Annual Accumulation (m w.e. a^{-1})')
title({['\fontsize{14}Average Surface Mass Balance'];...
['\fontsize{12}\color[rgb]{0.5 0 0}GTC15 Density \color[rgb]{0 0 0}MXHL Density']})
set(gca,'xtick',[0, 20, 40, 60, 78])
set(gca,'xticklabel',[0,20,40,60,78])
set(gca,'fontsize',12,'fontweight','bold')
xlabel('Distance (km)')
ylabel('(m w.e. a^{-1})')
end
figure();
subplot(3,1,1)
for rh = 1:nReflectionHorizon
shadedErrorBarT8(distance,AverageAccumulation{ii},...
sqrt(SnowWaterEqvVar{rh,ii}),1,{'Color',[0,0,0],'linewidth',1.5});
hold on;
end
freezeColors
axis tight
axis ij
grid on
set(gca,'ytick',[0.24,0.27,0.3,0.33])
title('Average Annual Accumulation (m w.e. a^{-1})')
set(gca,'xtick',1000.*[0, 20, 40, 60, 78])
set(gca,'xticklabel',[0,20,40,60,78])
subplot(3,1,2)
shadedErrorBarT8(distance,AverageAccumulation2{ii},...
sqrt(varAccumulation2{ii}),1,{'Color',[0,0,0],'linewidth',1.5});
hold on;
freezeColors
axis tight
axis ij
grid on
set(gca,'ytick',[0.24,0.27,0.3,0.33])
title('Average Annual Accumulation (m w.e. a^{-1})')
set(gca,'xtick',1000.*[0, 20, 40, 60, 78])
set(gca,'xticklabel',[0,20,40,60,78])
subplot(3,1,3)
shadedErrorBarT8(distance,AverageAccumulation{ii},...
sqrt(varAccumulation3{ii}),1,{'Color',[0,0,0],'linewidth',1.5});
hold on;
freezeColors
axis tight
axis ij
grid on
set(gca,'ytick',[0.24,0.27,0.3,0.33])
title('Average Annual Accumulation (m w.e. a^{-1})')
set(gca,'xtick',1000.*[0, 20, 40, 60, 78])
set(gca,'xticklabel',[0,20,40,60,78])
xlabel('Distance (km)')
set(findobj(gcf,'type','axes'),'FontName','FreeSerif','FontSize',12,...
'FontWeight','Bold', 'LineWidth', 1);
end
end
%% Topography
for ii = 1:nFiles
figure();
plot(trhd{ii}(16,:),trhd{ii}(15,:),'k','linewidth',3)
grid on
% xlim([0,max(trhd{ii}(16,:))])
xlim([0,1000.*78])
set(gca,'xtick',1000.*[0, 20, 40, 60, 78])
set(gca,'xticklabel',[0,20,40,60,78])
title('Topographic Profile')
xlabel('Distance (km)')
ylabel('Elevation (m a.s.l.)','rotation',270, 'Units', 'Normalized', 'Position', [-0.08, 0.5, 0])
% ylabel('Elevation (m a.s.l.)')
set(findobj(gcf,'type','axes'),'FontName','FreeSerif','FontSize',14,...
'FontWeight','Bold', 'LineWidth', 1);
text(.8,-.25,'100x Vertical Exaggeration','units','normalized','fontsize',12,'fontweight','bold')
daspect([110,1,1])
end