USGS Fact Sheet FS-086-03 Environmental Biogeochemistry of Trace Metals Basic knowledge practical...
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Transcript of USGS Fact Sheet FS-086-03 Environmental Biogeochemistry of Trace Metals Basic knowledge practical...
![Page 1: USGS Fact Sheet FS-086-03 Environmental Biogeochemistry of Trace Metals Basic knowledge practical application Aquatic terrestrial Hg As & Pb.](https://reader036.fdocuments.us/reader036/viewer/2022062806/5697bfd11a28abf838cab413/html5/thumbnails/1.jpg)
USGS Fact Sheet FS-086-03
Environmental Biogeochemistry of Trace Metals
Basic knowledge practical application Aquatic terrestrial Hg As & Pb
What do you see What you have learned
![Page 2: USGS Fact Sheet FS-086-03 Environmental Biogeochemistry of Trace Metals Basic knowledge practical application Aquatic terrestrial Hg As & Pb.](https://reader036.fdocuments.us/reader036/viewer/2022062806/5697bfd11a28abf838cab413/html5/thumbnails/2.jpg)
Four chats before presentation Micphone use is encouraged Students submit 1 question per lecture
every Monday 3 questions/week Pooled and assigned by Tuesday and discussed on Wednesday We will discuss term paper during our first chat
ChatChat
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TP due 3/28/10 (M)
Presentation starts (4-22 last day of class) 4/01/10 (W)
Your presentation is 35-45 minutes long 25-30 minute presentation 10-15 minute questions
Term paper (TP)Term paper (TP)
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Homework 60% 4 Dr. Bonzongo 2 Dr. Ma
Term paper 30%
Presentation 10%
Grade policyGrade policy
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Complexity of soils
Intensity and capacity concepts
Weathering
Florida soils
Soil reviewSoil review
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Complexity of soils Young, I. M. and J. W. Crawford. 2004.
Interactions and self-organization in the soil-microbe complex. Science. 304:1634 Scottish Informatics Mathematics Biology &
Statistics Centre (SIMBIOS)
The most complicated biomaterial
Earth’s most important resource
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Fig. 1. A&B: two soil thin sections (30 µm thick & 2 cm long) showing high degree of spatial variability within one undisturbed soil sample.
Pore space imageA/B-L: transmitted light A/B-R: cross polar light, distinguishing pores (white) from quartz grain (black)
Fig. 1C: High-resolution biological thin section (30 µm thick & 600 µm long).
Illumination under ultraviolet light reveals the location of fluorescently labeled microbes, (yellow)
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Fig. 3. Distribution of O2 in structured soil vs. microbial respiration rate. Each box represents a 2D soil open to atmosphere with respiration rate decreasing from top to bottom.
Red: low O2
Yellow: atmospheric O2Light blue: soil matrix.
• Pore-scale spatial complexity and diversity of O2 environments
• Spatial proximity of high and low O2 concentration regimes.
• At low microbial respiration, regions of low O2 prevail
Respiration rate
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Fig. 4. Self-organization in the soil-microbe complex.Open structure: Optimal configurations for O2 supply in a high activity regimeClosed structure: Protection from desiccation and predation in a low activity regime
Substrate arrives in soil microbial respiration rate ↑ more open aggregated state enhanced O2 supply (R)
Substrate used up microbial activity↓ soil structure collapses to closed state local O2 depletion (L)
Red: low O2, Yellow: atmospheric O2, and Light blue: soil matrix.
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Complexity of soils Young, I. M. and J. W. Crawford. 2004.
Interactions and self-organization in the soil-microbe complex. Science. 304:1634 Scottish Informatics Mathematics Biology & Statistics
Centre (SIMBIOS) The most complicated biomaterial Earth’s most important resource Biological Diversity (Fig. 1)
Heterogeneity Diversity in Microenvironments (Fig. 3)
Variability to function: homogenized vs. structured soils Scale dependency: aggregate
System Dynamics (Fig. 4) Dynamic properties Linking physical and biological processes