Presentation is loading. Please wait.

Presentation is loading. Please wait.

Geomorphologic controls on the age of particulate organic carbon from small mountainous rivers Lonnie Leithold and Neal Blair, North Carolina State University.

Published bySheila Lucas Modified over 8 years ago

Similar presentations

Presentation on theme: "Geomorphologic controls on the age of particulate organic carbon from small mountainous rivers Lonnie Leithold and Neal Blair, North Carolina State University."— Presentation transcript:

1 Geomorphologic controls on the age of particulate organic carbon from small mountainous rivers Lonnie Leithold and Neal Blair, North Carolina State University Funded by NSF Integrated Carbon Cycle Research

2 Particulate organic carbon (POC) is only a small fraction (~1%) of the material discharged by rivers, but it is an extremely important fraction Particulate organic carbon (POC) is only a small fraction (~1%) of the material discharged by rivers, but it is an extremely important fraction Why POC?

3 POC moves with and is largely bound to mineral grains POC moves with and is largely bound to mineral grains POC bound to mineral grains is gained and lost to various degrees as the grains move through surficial environments, dependent on their residence times in those environments POC bound to mineral grains is gained and lost to various degrees as the grains move through surficial environments, dependent on their residence times in those environments POC, therefore, can tell us a great deal about sedimentary processes, both present and past POC, therefore, can tell us a great deal about sedimentary processes, both present and past Why POC?

4 POC in small mountainous watersheds The POC discharged by small mountainous rivers, which collectively carry about half of the total annual discharge to the ocean, is distinct from that discharged by larger, passive margin rivers The POC discharged by small mountainous rivers, which collectively carry about half of the total annual discharge to the ocean, is distinct from that discharged by larger, passive margin rivers

5 POC in small mountainous watersheds Particles in these systems generally have relatively short residence times in near-surface reservoirs (e.g., the regolith, channel floor, floodplain) Particles in these systems generally have relatively short residence times in near-surface reservoirs (e.g., the regolith, channel floor, floodplain) One consequence is that ancient sedimentary carbon (kerogen) survives to be recycled into modern systems One consequence is that ancient sedimentary carbon (kerogen) survives to be recycled into modern systems

6 POC in small mountainous watersheds We can expect that such residence times will vary from watershed to watershed, dependent on geomorphic processes We can expect that such residence times will vary from watershed to watershed, dependent on geomorphic processes

7 Small mountainous and upland rivers on active margins Small mountainous and upland rivers on active margins Temperate climate with abundant, episodically intense rainfall Temperate climate with abundant, episodically intense rainfall Underlain almost exclusively by sedimentary rocks Underlain almost exclusively by sedimentary rocks

8

9

10

11

12

13

14 Leithold, Blair, and Perkey, 2006, Global Biogeochemical Cycles v.20

15 Based on  13 C and  14 C mass balance calculations

16 At the lower end of yield in SMRs, riverine POC loads are dominated by young plant material delivered by processes including sheetwash and episodic shallow landsliding

17 Concentration and 14 C age of OC in a soil profile Data from Gaudinski et al., 2000 ~ 1550 yrs Post modern  14 C = 40 F m = 1.03

18 Higher yields in these systems are accommodated by bedrock erosionHigher yields in these systems are accommodated by bedrock erosion Deep gully incision, for example, delivers virtually unweathered bedrock and kerogen to the river networkDeep gully incision, for example, delivers virtually unweathered bedrock and kerogen to the river network

19 Based on published rock to regolith conversion rates, in order for high sediment yields (>600-800 tons km -2 yr -1 ) to be sustained, direct bedrock erosion must be involved Based on published rock to regolith conversion rates, in order for high sediment yields (>600-800 tons km -2 yr -1 ) to be sustained, direct bedrock erosion must be involved By this criterion, bedrock erosion is estimated to contribute to about ¾ of small mountainous and ½ of upland rivers catalogued by Milliman and Syvitski (1992) By this criterion, bedrock erosion is estimated to contribute to about ¾ of small mountainous and ½ of upland rivers catalogued by Milliman and Syvitski (1992)

20 From Source to Sink Can POC in the offshore stratigraphic record tell us about watershed processes in the past? Can POC in the offshore stratigraphic record tell us about watershed processes in the past?

Download ppt "Geomorphologic controls on the age of particulate organic carbon from small mountainous rivers Lonnie Leithold and Neal Blair, North Carolina State University."

Similar presentations

Trends in Suspended Sediment Input to the San Francisco Bay from Local Tributaries Presented by Setenay Bozkurt Philip Williams &

Trends in Suspended Sediment Input to the San Francisco Bay from Local Tributaries Presented by Setenay Bozkurt Philip Williams &
Unit 3 Rocks, Soil, Erosion and Mass Movements

Unit 3 Rocks, Soil, Erosion and Mass Movements
erosion moving away from the source… Weathering, soil & erosion… Sediment regime: amount, size, characteristic sediment transport style in a river is.

erosion moving away from the source… Weathering, soil & erosion… Sediment regime: amount, size, characteristic sediment transport style in a river is.
Chapter 9 Water Erosion and Deposition

Chapter 9 Water Erosion and Deposition
1 Sedimentary Organic Matter Presented by: Maaike de Winkel.

1 Sedimentary Organic Matter Presented by: Maaike de Winkel.
Mr. Skirbst Life Science Topic 21

Mr. Skirbst Life Science Topic 21
Stream Load Erosion/Settling Velocity Importance Equilibrium / Rejuvenation Geomorphological Features.

Stream Load Erosion/Settling Velocity Importance Equilibrium / Rejuvenation Geomorphological Features.
Earth Systems Science Chapter 7 I.Structure of the Earth II.Plate Tectonics The solid part of the earth system includes processes, just like the atmosphere.

Earth Systems Science Chapter 7 I.Structure of the Earth II.Plate Tectonics The solid part of the earth system includes processes, just like the atmosphere.
Carbon Cycle Basics Ranga Myneni Boston University 1/12 Egon Schiele (1890-1918) Autumn Sun 1.

Carbon Cycle Basics Ranga Myneni Boston University 1/12 Egon Schiele ( ) Autumn Sun 1.
Cycles Describe the transfer and changes from one storage reservoir to another Examples: rock cycle, water cycle, carbon cycle.

Cycles Describe the transfer and changes from one storage reservoir to another Examples: rock cycle, water cycle, carbon cycle.
Mountains: Erosion. Erosion Sediment Regime Sediment “regime” of a river is set by the amount and size of material delivered from both hillslopes and.

Mountains: Erosion. Erosion Sediment Regime Sediment “regime” of a river is set by the amount and size of material delivered from both hillslopes and.
Lecture 15 - 1 ERS 482/682 (Fall 2002) Erosion and sediment transport ERS 482/682 Small Watershed Hydrology.

Lecture ERS 482/682 (Fall 2002) Erosion and sediment transport ERS 482/682 Small Watershed Hydrology.
Principles of Mass Balance

Principles of Mass Balance
The Valley Network Record on Mars (Class 2). LPSC Key Sessions on the Mars Hydrological Cycle Tuesday Afternoon, Sess 251. Ground Ice and Climate Change.

The Valley Network Record on Mars (Class 2). LPSC Key Sessions on the Mars Hydrological Cycle Tuesday Afternoon, Sess 251. Ground Ice and Climate Change.
Decadal to Centennial History of Lena River Discharge to the Arctic Ocean Principal Investigators: Eugeny B. Karabanov, Douglas F. Williams PhD. Candidates:

Decadal to Centennial History of Lena River Discharge to the Arctic Ocean Principal Investigators: Eugeny B. Karabanov, Douglas F. Williams PhD. Candidates:
Introduction to Soils Laboratory Exercise #1

Introduction to Soils Laboratory Exercise #1
Measuring abiotic components  Objectives  To make an exhaustive list of abiotic factors  To discuss the ways they are measured  To critically appraise.

Measuring abiotic components  Objectives  To make an exhaustive list of abiotic factors  To discuss the ways they are measured  To critically appraise.
Jefferson High School Compton Creek Research Project UCLA and Los Angeles Waterkeeper Funded by the Environmental Protection Agency.

Jefferson High School Compton Creek Research Project UCLA and Los Angeles Waterkeeper Funded by the Environmental Protection Agency.
Running Water Running water Water as an agent of erosion; water in streams, tributaries (larger streams) and rivers that flow down hill therefore changing.

Running Water Running water Water as an agent of erosion; water in streams, tributaries (larger streams) and rivers that flow down hill therefore changing.
Assessment Ch. 5 - 6 Answer the following questions from Chapters 5 – 6 on your paper. You may use your notes or use the internet to go to the PowerPoints.

Assessment Ch Answer the following questions from Chapters 5 – 6 on your paper. You may use your notes or use the internet to go to the PowerPoints.

Similar presentations

Ads by Google