diff --git a/Alignment v2.ipynb b/Alignment v2.ipynb
index 96bbe58b..a3687e5d 100644
--- a/Alignment v2.ipynb	
+++ b/Alignment v2.ipynb	
@@ -290,7 +290,7 @@
     "if not panchroCam:\n",
     "    cropped_dimensions, edges = imageutils.find_crop_bounds(thecapture, warp_matrices, warp_mode=warp_mode, reference_band=match_index)\n",
     "    print(\"Cropped dimensions:\",cropped_dimensions)\n",
-    "    im_aligned = thecapture.create_aligned_capture(warp_matrices=warp_matrices, motion_type=warp_mode, img_type=img_type, match_index=match_index)\n"
+    "    im_aligned = thecapture.create_aligned_capture(warp_matrices=warp_matrices, motion_type=warp_mode, img_type=img_type)\n"
    ]
   },
   {
@@ -579,10 +579,10 @@
     "if panchroCam:\n",
     "    # in this example, we can export both a pan-sharpened stack and an upsampled stack\n",
     "    # so you can compare them in GIS. In practice, you would typically only output the pansharpened stack \n",
-    "    thecapture.save_capture_as_stack(outputName+\"-pansharpened.tif\", sort_by_wavelength=True,pansharpen=True,img_type=img_type)\n",
-    "    thecapture.save_capture_as_stack(outputName+\"-upsampled.tif\", sort_by_wavelength=True,pansharpen=False,img_type=img_type)\n",
+    "    thecapture.save_capture_as_stack(outputName+\"-pansharpened.tif\", sort_by_wavelength=True, pansharpen=True)\n",
+    "    thecapture.save_capture_as_stack(outputName+\"-upsampled.tif\", sort_by_wavelength=True, pansharpen=False)\n",
     "else:\n",
-    "    thecapture.save_capture_as_stack(outputName+\"-noPanels.tif\", sort_by_wavelength=True,img_type=img_type)\n",
+    "    thecapture.save_capture_as_stack(outputName+\"-noPanels.tif\", sort_by_wavelength=True)\n",
     "\n",
     "et = time.time()\n",
     "elapsed_time = et - st\n",