[GRASS-SVN] r67590 - grass-addons/grass7/raster/r.series.diversity

svn_grass at osgeo.org svn_grass at osgeo.org
Fri Jan 15 03:15:46 PST 2016


Author: pvanbosgeo
Date: 2016-01-15 03:15:46 -0800 (Fri, 15 Jan 2016)
New Revision: 67590

Modified:
   grass-addons/grass7/raster/r.series.diversity/r.series.diversity.html
Log:
r.series.diversity addon: corrected some problems with special characters and misplaced references

Modified: grass-addons/grass7/raster/r.series.diversity/r.series.diversity.html
===================================================================
--- grass-addons/grass7/raster/r.series.diversity/r.series.diversity.html	2016-01-15 11:06:44 UTC (rev 67589)
+++ grass-addons/grass7/raster/r.series.diversity/r.series.diversity.html	2016-01-15 11:15:46 UTC (rev 67590)
@@ -78,20 +78,20 @@
 diversity and 1, no diversity. This is counterintuitive behavior for 
 a diversity index. An alternative is the inverse Simpson index, 
 which is defined as <i>ID = 1 / D)</i>. The lowest value of this 
-index is 1 and represent a community containing only one species 
-(Gini, 1912; Simpson, 1949). The higher the value, the greater the 
-diversity. The maximum value is the number of species in the sample. 
-The name of the output layer is composed of the basename + invsimpson.
+index is 1 and represent a community containing only one species. 
+The higher the value, the greater the diversity. The maximum value 
+is the number of species in the sample. The name of the output layer 
+is composed of the basename + invsimpson.
 
 <h4>Gini-Simpson index (Simpson's index of diversity)</h4>
 
 An alternative way to overcome the problem of the counter-intuitive 
-nature of Simpson's Index is to use <i>1 - D)</i>. The index 
-represents the probability that two individuals randomly selected 
-from a sample will belong to different species. The value ranges 
-between 0 and 1, with greater values representing greater sample 
-diversity. The name of the output layer is composed of the basename 
-+ ginisimpson.
+nature of Simpson's Index is to use <i>1 - D)</i> (Gini, 1912; 
+Simpson, 1949). The index represents the probability that two 
+individuals randomly selected from a sample will belong to different 
+species. The value ranges between 0 and 1, with greater values 
+representing greater sample diversity. The name of the output layer 
+is composed of the basename + ginisimpson.
 
 <h2>NOTES</h2>
 
@@ -184,8 +184,8 @@
 
 <h2>REFERENCES</h2>
 <ul>
-<li>Chase and Knight (2013). “Scale-dependent effect sizes of ecological drivers on biodiversity: why standardised sampling is not enough”. Ecology Letters, Volume 16, Issue Supplement s1, pgs 17-26.</li>
-<li>Gini, C. 1912. Variabilità e mutabilità. Reprinted in Memorie di metodologica statistica (Ed. Pizetti E, Salvemini, T). Rome: Libreria Eredi Virgilio Veschi 1.</li>
+<li>Chase and Knight (2013). "Scale-dependent effect sizes of ecological drivers on biodiversity: why standardised sampling is not enough". Ecology Letters, Volume 16, Issue Supplement s1, pgs 17-26.</li>
+<li>Gini, C. 1912. Variabilit&#224 e mutabilit&#224. Reprinted in Memorie di metodologica statistica (Ed. Pizetti E, Salvemini, T). Rome: Libreria Eredi Virgilio Veschi 1.</li>
 <li>Jost L. 2006. Entropy and diversity. Oikos 113:363-75</li>
 <li>Legendre P, Legendre L. 1998. Numerical Ecology. Second English edition. Elsevier, Amsterdam</li>
 <li>Simpson, E. H. 1949. Measurement of Diversity Nature 163</li>



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