29082908<h1 class="title toc-ignore">Taxon level predicted distribution modeling
29092909and conservation gap analysis summary</h1>
29102910<h4 class="author">Daniel P. Carver, Colin K. Khoury, Sarah Gora</h4>
2911- <h4 class="date">Report generated on 2025-12-18 </h4>
2911+ <h4 class="date">Report generated on 2026-01-07 </h4>
29122912
29132913</div>
29142914
@@ -2927,16 +2927,16 @@ <h2>Occurrence records</h2>
29272927genebank, botanic garden, or other repository (labeled G, as most
29282928records were from genebanks), or a reference observation/voucher
29292929specimen (labeled H, as most of these records were from herbaria).</p>
2930- <div class="datatables html-widget html-fill-item" id="htmlwidget-13661285be99b8499352 " style="width:100%;height:auto;"></div>
2931- <script type="application/json" data-for="htmlwidget-13661285be99b8499352">{"x":{"filter":"none","vertical":false,"data":[["Vitis novogranatensis"],[1],[0],[0],[0],[1],[0],[1]],"container":"<table class=\"compact\">\n <thead>\n <tr>\n <th>Taxon<\/th>\n <th>Occurrences<\/th>\n <th>Occurrences with Lat/Long<\/th>\n <th>Germplasm Records(G)<\/th>\n <th>Germplasm Records(G) with Lat/Long<\/th>\n <th>Reference Records(H)<\/th>\n <th>Reference Records(H) with Lat/Long<\/th>\n <th>Unique Data Sources<\/th>\n <\/tr>\n <\/thead>\n<\/table>","options":{"dom":"t","columnDefs":[{"className":"dt-right","targets":[1,2,3,4,5,6,7]},{"name":"Taxon","targets":0},{"name":"Occurrences","targets":1},{"name":"Occurrences with Lat/Long","targets":2},{"name":"Germplasm Records(G)","targets":3},{"name":"Germplasm Records(G) with Lat/Long","targets":4},{"name":"Reference Records(H)","targets":5},{"name":"Reference Records(H) with Lat/Long","targets":6},{"name":"Unique Data Sources","targets":7}],"order":[],"autoWidth":false,"orderClasses":false}},"evals":[],"jsHooks":[]}</script>
2930+ <div class="datatables html-widget html-fill-item" id="htmlwidget-f9561b307ab87e840159 " style="width:100%;height:auto;"></div>
2931+ <script type="application/json" data-for="htmlwidget-f9561b307ab87e840159">{"x":{"filter":"none","vertical":false,"data":[["Vitis novogranatensis"],[1],[0],[0],[0],[1],[0],[1]],"container":"<table class=\"compact\">\n <thead>\n <tr>\n <th>Taxon<\/th>\n <th>Occurrences<\/th>\n <th>Occurrences with Lat/Long<\/th>\n <th>Germplasm Records(G)<\/th>\n <th>Germplasm Records(G) with Lat/Long<\/th>\n <th>Reference Records(H)<\/th>\n <th>Reference Records(H) with Lat/Long<\/th>\n <th>Unique Data Sources<\/th>\n <\/tr>\n <\/thead>\n<\/table>","options":{"dom":"t","columnDefs":[{"className":"dt-right","targets":[1,2,3,4,5,6,7]},{"name":"Taxon","targets":0},{"name":"Occurrences","targets":1},{"name":"Occurrences with Lat/Long","targets":2},{"name":"Germplasm Records(G)","targets":3},{"name":"Germplasm Records(G) with Lat/Long","targets":4},{"name":"Reference Records(H)","targets":5},{"name":"Reference Records(H) with Lat/Long","targets":6},{"name":"Unique Data Sources","targets":7}],"order":[],"autoWidth":false,"orderClasses":false}},"evals":[],"jsHooks":[]}</script>
29322932</div>
29332933</div>
29342934<div id="combined-conservation-gap-analysis" class="section level1">
29352935<h1>Combined conservation gap analysis</h1>
29362936<p>This table displays all conservation gap analysis scores, providing a
29372937comparison of the ex situ and in situ scores</p>
2938- <div class="datatables html-widget html-fill-item" id="htmlwidget-bb558791afcd920e52f4 " style="width:100%;height:auto;"></div>
2939- <script type="application/json" data-for="htmlwidget-bb558791afcd920e52f4">{"x":{"filter":"none","vertical":false,"data":[["Vitis novogranatensis"],[0],[null],[null],[0],["UP"],[0],[null],[null],[0],["UP"],["UP"]],"container":"<table class=\"compact\">\n <thead>\n <tr>\n <th>Taxon<\/th>\n <th>Ex_situ_Sampling_Representativeness_Score<\/th>\n <th>Ex_situ_Geographic_Representativeness_Score<\/th>\n <th>Ex_situ_Ecological_Representativeness_Score<\/th>\n <th>Ex_situ_Final_Conservation_Score<\/th>\n <th>Ex_situ_Conservation_Priority<\/th>\n <th>In_situ_Sampling_Representativeness_Score<\/th>\n <th>In_situ_Geographic_Representativeness_Score<\/th>\n <th>In_situ_Ecological_Representativeness_Score<\/th>\n <th>In_situ_Final_Conservation_Score<\/th>\n <th>In_situ_Conservation_Priority<\/th>\n <th>Combined_Conservation_Priority<\/th>\n <\/tr>\n <\/thead>\n<\/table>","options":{"dom":"t","columnDefs":[{"className":"dt-right","targets":[1,4,6,9]},{"name":"Taxon","targets":0},{"name":"Ex_situ_Sampling_Representativeness_Score","targets":1},{"name":"Ex_situ_Geographic_Representativeness_Score","targets":2},{"name":"Ex_situ_Ecological_Representativeness_Score","targets":3},{"name":"Ex_situ_Final_Conservation_Score","targets":4},{"name":"Ex_situ_Conservation_Priority","targets":5},{"name":"In_situ_Sampling_Representativeness_Score","targets":6},{"name":"In_situ_Geographic_Representativeness_Score","targets":7},{"name":"In_situ_Ecological_Representativeness_Score","targets":8},{"name":"In_situ_Final_Conservation_Score","targets":9},{"name":"In_situ_Conservation_Priority","targets":10},{"name":"Combined_Conservation_Priority","targets":11}],"order":[],"autoWidth":false,"orderClasses":false}},"evals":[],"jsHooks":[]}</script>
2938+ <div class="datatables html-widget html-fill-item" id="htmlwidget-2516b12334d4297a6d9b " style="width:100%;height:auto;"></div>
2939+ <script type="application/json" data-for="htmlwidget-2516b12334d4297a6d9b">{"x":{"filter":"none","vertical":false,"data":[["Vitis novogranatensis"],[0],[null],[null],[0],["UP"],[0],[null],[null],[0],["UP"],[0],["UP"]],"container":"<table class=\"compact\">\n <thead>\n <tr>\n <th>Taxon<\/th>\n <th>Ex situ Sampling Representativeness Score<\/th>\n <th>Ex situ Geographic Representativeness Score<\/th>\n <th>Ex situ Ecological Representativeness Score<\/th>\n <th>Ex situ Final Conservation Score<\/th>\n <th>Ex situ Conservation Priority<\/th>\n <th>In situ Sampling Representativeness Score<\/th>\n <th>In situ Geographic Representativeness Score<\/th>\n <th>In situ Ecological Representativeness Score<\/th>\n <th>In situ Final Conservation Score<\/th>\n <th>In situ Conservation Priority<\/th>\n <th>Final Convervation Score Mean<\/th>\n <th>Combined Conservation Priority<\/th>\n <\/tr>\n <\/thead>\n<\/table>","options":{"dom":"t","columnDefs":[{"className":"dt-right","targets":[1,4,6,9,11]},{"name":"Taxon","targets":0},{"name":"Ex situ Sampling Representativeness Score","targets":1},{"name":"Ex situ Geographic Representativeness Score","targets":2},{"name":"Ex situ Ecological Representativeness Score","targets":3},{"name":"Ex situ Final Conservation Score","targets":4},{"name":"Ex situ Conservation Priority","targets":5},{"name":"In situ Sampling Representativeness Score","targets":6},{"name":"In situ Geographic Representativeness Score","targets":7},{"name":"In situ Ecological Representativeness Score","targets":8},{"name":"In situ Final Conservation Score","targets":9},{"name":"In situ Conservation Priority","targets":10},{"name":"Final Convervation Score Mean","targets":11},{"name":"Combined Conservation Priority","targets":12}],"order":[],"autoWidth":false,"orderClasses":false}},"evals":[],"jsHooks":[]}</script>
29402940<p><br></p>
29412941<div id="definitions-of-conservation-gap-analysis-scores" class="section level2">
29422942<h2>Definitions of conservation gap analysis scores</h2>
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