[GRASS-SVN] r59746 - grass-promo/grassposter/2014_EGU_WD_Landscape

[svn_grass at osgeo.org]

Author: ychemin
Date: 2014-04-16 12:37:03 -0700 (Wed, 16 Apr 2014)
New Revision: 59746

Modified:
   grass-promo/grassposter/2014_EGU_WD_Landscape/poster.tex
Log:
update poster

Modified: grass-promo/grassposter/2014_EGU_WD_Landscape/poster.tex
===================================================================
--- grass-promo/grassposter/2014_EGU_WD_Landscape/poster.tex	2014-04-16 18:58:14 UTC (rev 59745)
+++ grass-promo/grassposter/2014_EGU_WD_Landscape/poster.tex	2014-04-16 19:37:03 UTC (rev 59746)
@@ -167,6 +167,13 @@
 The results discern large areas in VMD dominated by irrigated triple crop rice agro-ecosystems, followed by seasonal flooding near the end of each year, as well as long-term change from double cropping to triple cropping in adjacent areas from 2008 onward.\newline
 }
 
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+\blocknode{Acknowledgements}{
+\smallskip
+The authors would like to acknowledge the WLE Seed funding for innovative research.\newline
+}
+
+
 \startthirdcolumn
 
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@@ -220,7 +227,7 @@
 \blocknode{Biotic Zoning}{
 \smallskip
 Object based classification (\textit{i.segment}) of the sum transpiration for each year has been done and merged, resulting areas were clumped (\textit{r.clump}) and averaged statistics of yearly transpiration extracted (\textit{r.stats.zonal}).\newline
-Rainfed cropping in Isarn (Part 1) is clearly identified as low transpiration signal (red colour), Recession cropping areas around Tonle Sap (Part 2 \& 3) are high signals (Blue and green) with both noise and a negative impact on transpiration in Part 2 around mid-year (Green signal drop). A southern area (Part 4) of most probably rainfed benefiting from flood to some extent to propose some kind of recession cropping with a mid-year transpiration raise signal (Violet).\newline
+Rainfed cropping in Isarn (Part 1) is clearly identified from the low transpiration signal (red colour), recession cropping areas around Tonle Sap (Part 2 \& 3) have high signals (blue and green) with both noise and a negative impact on transpiration in Part 2 around mid-year (green signal drop). A southern area (Part 4), most probably rainfed, benefits from flood to some extent, it is proposed that some kind of recession cropping is practised, as there is a mid-year transpiration signal raise (violet).
 \begin{center}
 	\begin{tabular}{cc}
  	\begin{tabular}{p{0.5\textwidth}}
@@ -237,6 +244,13 @@
 \end{center}
 }
 
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+\blocknode{Conclusions}{
+\smallskip
+The last ten years have seen intensification of cropping systems in the lower Mekong, where some triple cropping started to be practised. Landscapes relating to non-irrigated cropping systems are rainfed (as found in Isarn) or recession cropping (as found around Tonle Sap). There is a decrease of vegetation index range proportionally to the distance from Tonle Sap, interpreted as the transient surface water creating a reduction of the signal. \newline
+}
+
+
 \end{tikzpicture}
 
 \end{document}