Download presentation
Presentation is loading. Please wait.
Published byTrace Huggins Modified over 10 years ago
1
LBA Fluxtower Sites: Vastly Diverse Samples of Amazonian Terrain LBA Fluxtower Sites: Vastly Diverse Samples of Amazonian Terrain Antonio Donato Nobre Celso Randow Camilo Daleles Renno Luz Adriana Cuartas Alessandro Carioca de Araujo Scott Saleska LBA Fluxtower Synthesis Group GEOMA Environmental Physics Group INPA Instituto Nacional de Pesquisas da Amazonia INPE Instituto Nacional de Pesquisas Espaciais University of Arizona USA VUA Free Universtity of Amsterdam Holland
2
Topography has strong influence on soils and ecosystems terrainsoil vegetation
3
HAND, a new quantitative terrain approach Hydrology ASU catchment (LBA) –hillslope hydrology, –ground water, –stream flow, –vegetation-water relations (Tomasella et al 2007, Hodnet et al 2007a, Hodnet et al 2007b, Waterloo et al 2006, Cuartas et al 2007) Terrain analysis (GEOMA) –Digital elevation model (SRTM) –Terrain descriptor (Rennó et al 2008) –Field validation and testing –Terrain vs Hydrology
4
Questions and Assumptions Tower significant footprint usually does not exceed 10 km –Therefore, terrain around the towers within a circle with 10 km radius can be hypothetically associated with flux-data Remote sensing data require broader and representative validations –testing representativeness of the assumed tower footprint (10 km), we choose an encompassing circle of 50 km radius for comparisons
5
São Gabriel da Cachoeira SRTM 50 km 10 km
6
Flood land Mask By Novo, Mellack et al SRTM São Gabriel
7
4% Flooded 42% Waterlogged 36% Ecotone 8% Slope 10% Plateau HAND map São Gabriel
8
Manaus K34 & C14 SRTM
9
Flood land Mask By Novo, Mellack et al SRTM Manaus K34
10
10% Flooded 20% Waterlogged 20% Ecotone 31% Slope 19% Plateau HAND map Manaus K34
11
Caxiuana SRTM
12
Flood land Mask By Novo, Mellack et al SRTM Caxiuana
13
36% Flooded 30% Waterlogged 20% Ecotone 2% Slope 12% Plateau HAND map Caxiuana
14
Santarem km 67 SRTM
15
SRTM Santarem km 67 Flood land Mask By Novo, Mellack et al
16
20% Flooded 6% Waterlogged 6% Ecotone 27% Slope 41% Plateau HAND map Santarem km 67
17
Ji-parana
18
Flood land Mask By Novo, Mellack et al SRTM Ji-parana
19
2% Flooded 32% Waterlogged 25% Ecotone 24% Slope 17% Plateau HAND map Ji-parana
20
Sinop SRTM
21
Flood land Mask By Novo, Mellack et al SRTM Sinop
22
4% Flooded 21% Waterlogged 21% Ecotono 8% Slope 47% Plateau HAND map Sinop
23
K34 Sinop Caxiuana Nobre et al Terrain classes, 50 km / 10 km ratios Representativeness of Flux-sites for RS
24
Comparing sites Hydrology –New spatially accurate data, vital to feed models Vegetation –Powerful predictor of community distribution –Potential proxy for biomass Topography –Metric for topographic roughness –Coupled terrain/footprint analysis
25
Large Circle(20000.000m)Small Circle(5000.0000m) Total Área :146293pixelsTotal Área :9141pixels Background:3,11%Background:1,78% class[0-5]:17,29%class[0-5]:14,64% class]5.3-15]:22,28%class]5.3-15]:15,24% class>15(slope>7.6%):23,28%class>15(slope>7.6%):29,64% class>15(slope<=7.6%):34,04%class>15(slope<=7.6%):38,7% Statistics for Manaus C14 Coupled terrain/footprint analysis
26
Footprints C14 Manaus Wet unstable Wet stable Topography Cross Section vs flux contribution with distance Each footprint isoline encloses a zone of probability for flux signal source
27
Dry unstable Dry stable Footprints C14 Manaus
28
Manaus K34 Caxiuana Ji-parana Santarem km 67 Santarem km 83 Sao Gabriel (dry unstable) Sinop Manaus C14 Site Footprint Comparison WET UNSTABLE
29
Manaus K34 Manaus C14 Santarem K 67 S Gabriel Caxiuana Sinop Tower Site HAND map Comparison
30
Footprint C14 Manaus Wet unstable Wet stable Terrain Class Distribution by Footprint Probability Class
31
Dry unstable Dry stable
32
Manaus K34 Caxiuana Ji-parana Santarem km 67 Santarem km 83 Sao Gabriel (dry unstable) Sinop Manaus C14 WET UNSTABLE SITE Comparison
33
% accumulated contribution WET UNSTABLE WET STABLE DRY UNSTABLE DRY STABLE Up to 5km63,5139,5064,6736,80 Up to 20km92,3986,7993,6686,56
34
Footprint conclusions Fluxtower Footprint analysis allows matching of dynamic fluxsource data with terrain composition Most fluxtower sites sample terrains close by (less than 1 km radius), skewing the weight of their measurements to such terrains. Much more detailed footprint significance analysis can yield a potentially good indication of how to interpret terrain/ecosystem contribution to flux data
Similar presentations
© 2025 SlidePlayer.com. Inc.
All rights reserved.