diff --git a/src/Tyler.jl b/src/Tyler.jl
index f5028d7..52e2898 100644
--- a/src/Tyler.jl
+++ b/src/Tyler.jl
@@ -152,9 +152,8 @@ function Map(extent, extent_crs=wgs84;
     X = ext_target.X
     Y = ext_target.Y
     axis.autolimitaspect = 1
-    @show X[1], X[2]
     Makie.limits!(axis, (X[1], X[2]), (Y[1], Y[2]))
-
+     scale
     plots = Dict{Tile,Any}()
     tyler = Map(
         provider, crs,
@@ -203,11 +202,11 @@ function Map(extent, extent_crs=wgs84;
     end
 
     # Queue tiles to be downloaded & displayed
-    @show ext_target
+     ext_target
     update_tiles!(tyler, ext_target)
 
     on(axis.scene, axis.finallimits) do extent
-        @show extent
+         extent
         stopped_displaying(figure) && return
         update_tiles!(tyler, extent)
         return
@@ -287,7 +286,7 @@ end
 
 function fetch_tile(tyler::Map, tile::Tile)
     #println("Fetching Tile")
-    #@show tile
+    # tile
     return get!(tyler.fetched_tiles, tile) do
         fetch_tile(tyler.provider, tile)
     end
@@ -344,7 +343,7 @@ function get_zoom(tyler::Map, area)
 end
 
 function update_tiles!(tyler::Map, area::Union{Rect,Extent})
-    @show area
+     area
     area = typeof(area) <: Rect ? Extents.extent(area) : area
     # `depth` determines the number of layers below the current
     # layer to load. Tiles are downloaded in order from lowest to highest zoom.
@@ -352,7 +351,7 @@ function update_tiles!(tyler::Map, area::Union{Rect,Extent})
 
     # Calculate the zoom level
     zoom = get_zoom(tyler, area)
-    @show zoom
+     zoom
     tyler.zoom[] = zoom
 
     # And the z layers we will plot