Difference between revisions of "African great ape layers"
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| (17 intermediate revisions by the same user not shown) | |||
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<div id="map" style="width: 100%; height: 500px;"></div> | <div id="map" style="width: 100%; height: 500px;"></div> | ||
| − | |||
<script> | <script> | ||
// GEOJSON FILES | // GEOJSON FILES | ||
| + | // var gadendist2021 = 'files/african_great_apes/great_ape_dendist_ION2021.geojson'; | ||
| + | var gaabundance = '../files/african_great_apes/afr_great_ape_ab.geojson'; | ||
| + | var wchimp2019 = '../files/african_great_apes/Heinicke2019_westernchimp.geojson'; | ||
| + | var sec = '../files/african_great_apes/SEC_merged_Af_apes.geojson'; | ||
| + | var occugrauer = '../files/african_great_apes/gorilla_occupancy_plumptre.geojson'; | ||
| + | var occuechimp = '../files/african_great_apes/echimp_occupancy_plumptre.geojson'; | ||
| + | var liberiadens = '../files/african_great_apes/liberia_chimp_density.geojson'; | ||
// Create map | // Create map | ||
| Line 35: | Line 41: | ||
// Set style function that sets fill color property | // Set style function that sets fill color property | ||
| − | + | function stylegadendist2021(feature) { return { fillColor: '#F31818', fillOpacity: 0.7, weight: 2, opacity: 0.7, color: '#F31818', dashArray: '3' }; } | |
| + | function stylegaabundance(feature) { return { fillColor: '#5F0CE4', fillOpacity: 0.7, weight: 2, opacity: 0.7, color: '#5F0CE4', dashArray: '3' }; } | ||
| + | function stylewchimp2019(feature) { return { fillColor: '#E74F08', fillOpacity: 0.8, weight: 4, opacity: 0.8, color: '#E74F08', dashArray: '3' }; } | ||
| + | function stylesec(feature) { return { fillColor: '#DFE906', fillOpacity: 0.5, weight: 4, opacity: 0.4, color: '#DFE906', dashArray: '3' }; } | ||
| + | function styleoccugrauer(feature) { return { fillColor: '#076419', fillOpacity: 0.8, weight: 2, opacity: 0.8, color: '#076419', dashArray: '3' }; } | ||
| + | function styleoccuechimp(feature) { return { fillColor: '#752309', fillOpacity: 0.8, weight: 2, opacity: 0.8, color: '#752309', dashArray: '3' }; } | ||
| + | function styleliberiadens(feature) { return { fillColor: '#07ACAD', fillOpacity: 0.8, weight: 2, opacity: 0.8, color: '#07ACAD', dashArray: '3' }; } | ||
// Null variable that will hold layer // took out onEachFeature: forEachFeature, | // Null variable that will hold layer // took out onEachFeature: forEachFeature, | ||
| − | + | var gaabundanceLayer = L.geoJson(null, {style: stylegaabundance}); | |
| − | + | var wchimp2019Layer = L.geoJson(null, {style: stylewchimp2019}); | |
| − | var | + | var secLayer = L.geoJson(null, {style: stylesec}); |
| + | var occugrauerLayer = L.geoJson(null, {style: styleoccugrauer}); | ||
| + | var occuechimpLayer = L.geoJson(null, {style: styleoccuechimp}); | ||
| + | var liberiadensLayer = L.geoJson(null, {style: styleliberiadens}); | ||
| + | |||
| + | $.getJSON(gaabundance, function(data) { gaabundanceLayer.addData(data);}); gaabundanceLayer.addTo(map); | ||
| + | $.getJSON(wchimp2019, function(data) { wchimp2019Layer.addData(data);}); wchimp2019Layer.addTo(map); | ||
| + | $.getJSON(sec, function(data) { secLayer.addData(data);}); secLayer.addTo(map); | ||
| + | $.getJSON(occugrauer, function(data) { occugrauerLayer.addData(data);}); occugrauerLayer.addTo(map); | ||
| + | $.getJSON(occuechimp, function(data) { occuechimpLayer.addData(data);}); occuechimpLayer.addTo(map); | ||
| + | $.getJSON(liberiadens, function(data) { liberiadensLayer.addData(data);}); liberiadensLayer.addTo(map); | ||
// for Layer Control | // for Layer Control | ||
| Line 50: | Line 72: | ||
// not showing ga densdist 2021 here because it takes ages to load... | // not showing ga densdist 2021 here because it takes ages to load... | ||
var overlayMaps = { | var overlayMaps = { | ||
| + | "SEC": secLayer, | ||
"Great ape abundance per site": gaabundanceLayer, | "Great ape abundance per site": gaabundanceLayer, | ||
| − | + | "Western chimpanzee density": wchimp2019Layer, | |
| + | "Liberia chimpanzee density": liberiadensLayer, | ||
| + | }; | ||
| Line 60: | Line 85: | ||
</body> | </body> | ||
</html> | </html> | ||
| + | |||
| + | |||
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| + | |||
| + | {|border="1" cellpadding="5" cellspacing="0", class="orangutan_layers" !style="background-color:#ccffcc;" | ||
| + | |+'''Available African great ape layers''' | ||
| + | !Species | ||
| + | !Original data | ||
| + | !Year | ||
| + | !Description | ||
| + | !Source | ||
| + | |- | ||
| + | |African great apes excluding bonobos and Grauer's gorillas | ||
| + | |Shapefile | ||
| + | |2015 | ||
| + | |The layer is the first attempt to model continent-wide great ape density distribution from site-level estimates of African great ape abundance. Populations in Central African Republic, Democratic Republic of the Congo, Liberia, and South Sudan are excluded due to excessively high estimates. | ||
| + | |[https://onlinelibrary.wiley.com/doi/full/10.1002/ajp.23338 Ordaz-Németh, I., Sop, T., Amarasekaran, B., Bachmann, M., Boesch, C., Brncic, T., ... & Kühl, H. S. (2021). Range‐wide indicators of African great ape density distribution. American journal of primatology, 83(12), e23338.] | ||
| + | |- | ||
| + | |All African great apes | ||
| + | |Shapefile | ||
| + | | | ||
| + | |Compilation of all sites from which great apes population abundances are available. | ||
| + | |IUCN SSC APES Database 2020 | ||
| + | |- | ||
| + | |Western chimpanzees | ||
| + | |Raster (tif) | ||
| + | |2015 | ||
| + | |Range-wide predictions of chimpanzee density based on density distribution model. | ||
| + | |[https://iopscience.iop.org/article/10.1088/1748-9326/ab1379 Heinicke, S., Mundry, R., Boesch, C., Amarasekaran, B., Barrie, A., Brncic, T., ... & Kühl, H. S. (2019). Advancing conservation planning for western chimpanzees using IUCN SSC APES—the case of a taxon-specific database. Environmental Research Letters, 14(6), 064001.] | ||
| + | |- | ||
| + | |All African great apes | ||
| + | |Raster (tif) | ||
| + | |2000s | ||
| + | |Predicted distribution of suitable environmental conditions (SEC) for eight African great ape taxa for the 2000s. | ||
| + | |[https://onlinelibrary.wiley.com/doi/full/10.1111/ddi.12005 Junker, J., Blake, S., Boesch, C., Campbell, G., Toit, L. D., Duvall, C., ... & Kuehl, H. S. (2012). Recent decline in suitable environmental conditions for A frican great apes. Diversity and Distributions, 18(11), 1077-1091.] | ||
| + | |- | ||
| + | |Grauer's gorillas and eastern chimpanzees | ||
| + | |Raster file (tif) | ||
| + | |2015 | ||
| + | |Occupancy probability models for the Grauer's gorillas and eastern chimpanzees in DRC. | ||
| + | |[https://doi.org/10.1371/journal.pone.0162697 Plumptre, A. J., Nixon, S., Kujirakwinja, D. K., Vieilledent, G., Critchlow, R., Williamson, E. A., ... & Hall, J. S. (2016). Catastrophic decline of world's largest primate: 80% loss of Grauer's Gorilla (Gorilla beringei graueri) population justifies critically endangered status. PloS one, 11(10), e0162697.] | ||
| + | |- | ||
| + | |Western chimpanzees | ||
| + | |Raster (tif) | ||
| + | |2012 | ||
| + | |Predicted density distribution of chimpanzees in Liberia. | ||
| + | |[https://doi.org/10.1017/S0030605313001191 Tweh, C. G., Lormie, M. M., Kouakou, C. Y., Hillers, A., Kühl, H. S., & Junker, J. (2015). Conservation status of chimpanzees Pan troglodytes verus and other large mammals in Liberia: a nationwide survey. Oryx, 49(4), 710-718.] | ||
| + | |- | ||
| + | |Central chimpanzees and western lowland gorillas | ||
| + | |Shapefile | ||
| + | |2013 | ||
| + | |Using great ape data from 59 sites in five countries surveyed between 2003 and 2013, these layers predict central chimpanzee and western lowlang gorilla densities across each taxon’s geographic range. | ||
| + | |[https://www.science.org/doi/10.1126/sciadv.aar2964 Strindberg, S., Maisels, F., Williamson, E. A., Blake, S., Stokes, E. J., Aba’a, R., ... & Wilkie, D. S. (2018). Guns, germs, and trees determine density and distribution of gorillas and chimpanzees in Western Equatorial Africa. Science advances, 4(4), eaar2964.] | ||
| + | |- | ||
| + | |Chimpanzees | ||
| + | |PNG | ||
| + | | | ||
| + | |This Layer provides insights into where chimpanzees avoided climate instability during glacial and interglacial periods in Africa over the past 120,000 years. | ||
| + | |[https://onlinelibrary.wiley.com/doi/full/10.1002/ajp.23320 Barratt, C. D., Lester, J. D., Gratton, P., Onstein, R. E., Kalan, A. K., McCarthy, M. S., ... & Kühl, H. (2021). Quantitative estimates of glacial refugia for chimpanzees (Pan troglodytes) since the Last Interglacial (120,000 BP). American Journal of Primatology, 83(10), e23320.] | ||
| + | |- | ||
| + | |All African great apes | ||
| + | |Raster (img) | ||
| + | |2050 | ||
| + | |These layers predict changes in great ape taxon-specific distribution under future scenarios of climate, land use and human populations for (1) areas outside protected areas (PAs) only (assuming complete management effectiveness of PAs), (2) the entire study region, and (3) interspecies range overlap. | ||
| + | |[https://doi.org/10.1111/ddi.13358 Carvalho, J. S., Graham, B., Bocksberger, G., Maisels, F., Williamson, E. A., Wich, S., ... & Kühl, H. S. (2021). Predicting range shifts of African apes under global change scenarios. Diversity and Distributions, 27(9), 1663-1679.] | ||
| + | |- | ||
| + | |} | ||
Latest revision as of 05:34, 15 June 2022
Spatial Layers > African great ape layers