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Steven S Perakis

I am a Supervisory Research Ecologist at the Forest and Rangeland Ecosystem Science Center in Corvallis, OR

I am interested in forest biogeochemistry and ecosystem studies, watershed science, riparian forests, nutrient cycling, forest soil fertility and stable isotopes.

 

Professional Experience

  • 2001-present: Supervisory Research Ecologist, USGS Forest and Rangeland Ecosystem Science Center, Corvallis, OR

  • 2001: Post Doctoral Position, Stanford University, Stanford, CA

Education and Certifications

  • Ph.D., Cornell University, Ithaca, NY (2000)

  • M.S., University of Washington, Seattle, WA (1994)

  • B.S., University of Pennsylvania, Philadelphia, PA (1990)

Science and Products

Views from Siuslaw National Forest

Terrestrial Ecosystems Laboratory (FRESC)

Research in our laboratory centers on the ecology and biogeochemistry of forest ecosystems, as well as grassland and riparian systems. We examine how factors such as natural and human disturbances, climate, succession, and soil fertility shape ecosystem biogeochemistry - and the reciprocal effect of biogeochemical cycles on these and other factors.
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center
Terrestrial Ecosystems Laboratory (FRESC)

Terrestrial Ecosystems Laboratory (FRESC)

Research in our laboratory centers on the ecology and biogeochemistry of forest ecosystems, as well as grassland and riparian systems. We examine how factors such as natural and human disturbances, climate, succession, and soil fertility shape ecosystem biogeochemistry - and the reciprocal effect of biogeochemical cycles on these and other factors.
Learn More

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

No Result Found

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

No results found.

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

Filter Total Items: 79

Imprint of oaks on nitrogen availability and δ15N in California grassland-savanna: A case of enhanced N inputs? Imprint of oaks on nitrogen availability and δ15N in California grassland-savanna: A case of enhanced N inputs?

Woody vegetation is distributed patchily in many arid and semi-arid ecosystems, where it is often associated with elevated nitrogen (N) pools and availability in islands of fertility. We measured N availability and δ15N in paired blue-oak versus annual grass dominated patches to characterize the causes and consequences of spatial variation in N dynamics of grassland-savanna in Sequoia...
Authors
S.S. Perakis, C.H. Kellogg
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Nutrient vectors and riparian processing: A review with special reference to African semiarid savanna ecosystems Nutrient vectors and riparian processing: A review with special reference to African semiarid savanna ecosystems

This review article describes vectors for nitrogen and phosphorus delivery to riparian zones in semiarid African savannas, the processing of nutrients in the riparian zone and the effect of disturbance on these processes. Semiarid savannas exhibit sharp seasonality, complex hillslope hydrology and high spatial heterogeneity, all of which ultimately impact nutrient fluxes between riparian...
Authors
Shayne Jacobs, J.S. Bechtold, Harry Biggs, N. Grimm, S. Lorentz, M.E. McClain, R.J. Naiman, Steven S. Perakis, G. Pinay, M.C. Scholes
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Coupled nitrogen and calcium cycles in forests of the Oregon Coast Range Coupled nitrogen and calcium cycles in forests of the Oregon Coast Range

Nitrogen (N) is a critical limiting nutrient that regulates plant productivity and the cycling of other essential elements in forests. We measured foliar and soil nutrients in 22 young Douglas-fir stands in the Oregon Coast Range to examine patterns of nutrient availability across a gradient of N-poor to N-rich soils. N in surface mineral soil ranged from 0.15 to 1.05% N, and was...
Authors
S.S. Perakis, D.A. Maguire, T.D. Bullen, K. Cromack, R.H. Waring, J.R. Boyle
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Terrestrial C sequestration at elevated CO2 and temperature: the role of dissolved organic N loss Terrestrial C sequestration at elevated CO2 and temperature: the role of dissolved organic N loss

We used a simple model of carbon–nitrogen (C–N) interactions in terrestrial ecosystems to examine the responses to elevated CO2 and to elevated CO2 plus warming in ecosystems that had the same total nitrogen loss but that differed in the ratio of dissolved organic nitrogen (DON) to dissolved inorganic nitrogen (DIN) loss. We postulate that DIN losses can be curtailed by higher N demand...
Authors
Edward Rastetter, Steven S. Perakis, Gaius Shaver, Goran Agren
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Nitrogen retention across a gradient of 15N additions to an unpolluted temperate forest soil in Chile Nitrogen retention across a gradient of 15N additions to an unpolluted temperate forest soil in Chile

Accelerated nitrogen (N) inputs can drive nonlinear changes in N cycling, retention, and loss in forest ecosystems. Nitrogen processing in soils is critical to understanding these changes, since soils typically are the largest N sink in forests. To elucidate soil mechanisms that underlie shifts in N cycling across a wide gradient of N supply, we added 15NH415NO3 at nine treatment levels...
Authors
Steven S. Perakis, Jana Compton, L. Hedin
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Nitrogen loss from nonpolluted South American forests mainly via dissolved organic compounds Nitrogen loss from nonpolluted South American forests mainly via dissolved organic compounds

Conceptual1,2,3,4 and numerical5,6,7,8 models of nitrogen cycling in temperate forests assume that nitrogen is lost from these ecosystems predominantly by way of inorganic forms, such as nitrate and ammonium ions. Of these, nitrate is thought to be particularly mobile, being responsible for nitrogen loss to deep soil and stream waters. But human activities—such as fossil fuel combustion
Authors
Steven S. Perakis, L. Hedin
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Nutrient limitation, hydrology and watershed nitrogen loss Nutrient limitation, hydrology and watershed nitrogen loss

No abstract available.
Authors
Steven S. Perakis
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Non-USGS Publications**

Perakis, S.S., Hedin, L.O., 2002, Response to commentary on "Nitrogen loss from unpolluted South American forests mainly via dissolved organic compounds": Nature, v. 418, p. 665-665.
Perakis, S.S., Welch, E.B., Jacoby, J.M., 1996, Sediment-to-water blue-green algal recruitment in response to alum and environmental factors: Hydrobiologia, v. 318, no. 3, p. 165-177.

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

To request an interview, contact fresc_outreach@usgs.gov or call (541) 750-1030.

Filter Total Items: 14

Science and Products

Views from Siuslaw National Forest

Terrestrial Ecosystems Laboratory (FRESC)

Research in our laboratory centers on the ecology and biogeochemistry of forest ecosystems, as well as grassland and riparian systems. We examine how factors such as natural and human disturbances, climate, succession, and soil fertility shape ecosystem biogeochemistry - and the reciprocal effect of biogeochemical cycles on these and other factors.
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center
Terrestrial Ecosystems Laboratory (FRESC)

Terrestrial Ecosystems Laboratory (FRESC)

Research in our laboratory centers on the ecology and biogeochemistry of forest ecosystems, as well as grassland and riparian systems. We examine how factors such as natural and human disturbances, climate, succession, and soil fertility shape ecosystem biogeochemistry - and the reciprocal effect of biogeochemical cycles on these and other factors.
Learn More

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

No Result Found

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

No results found.

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

Filter Total Items: 79

Imprint of oaks on nitrogen availability and δ15N in California grassland-savanna: A case of enhanced N inputs? Imprint of oaks on nitrogen availability and δ15N in California grassland-savanna: A case of enhanced N inputs?

Woody vegetation is distributed patchily in many arid and semi-arid ecosystems, where it is often associated with elevated nitrogen (N) pools and availability in islands of fertility. We measured N availability and δ15N in paired blue-oak versus annual grass dominated patches to characterize the causes and consequences of spatial variation in N dynamics of grassland-savanna in Sequoia...
Authors
S.S. Perakis, C.H. Kellogg
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Nutrient vectors and riparian processing: A review with special reference to African semiarid savanna ecosystems Nutrient vectors and riparian processing: A review with special reference to African semiarid savanna ecosystems

This review article describes vectors for nitrogen and phosphorus delivery to riparian zones in semiarid African savannas, the processing of nutrients in the riparian zone and the effect of disturbance on these processes. Semiarid savannas exhibit sharp seasonality, complex hillslope hydrology and high spatial heterogeneity, all of which ultimately impact nutrient fluxes between riparian...
Authors
Shayne Jacobs, J.S. Bechtold, Harry Biggs, N. Grimm, S. Lorentz, M.E. McClain, R.J. Naiman, Steven S. Perakis, G. Pinay, M.C. Scholes
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Coupled nitrogen and calcium cycles in forests of the Oregon Coast Range Coupled nitrogen and calcium cycles in forests of the Oregon Coast Range

Nitrogen (N) is a critical limiting nutrient that regulates plant productivity and the cycling of other essential elements in forests. We measured foliar and soil nutrients in 22 young Douglas-fir stands in the Oregon Coast Range to examine patterns of nutrient availability across a gradient of N-poor to N-rich soils. N in surface mineral soil ranged from 0.15 to 1.05% N, and was...
Authors
S.S. Perakis, D.A. Maguire, T.D. Bullen, K. Cromack, R.H. Waring, J.R. Boyle
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Terrestrial C sequestration at elevated CO2 and temperature: the role of dissolved organic N loss Terrestrial C sequestration at elevated CO2 and temperature: the role of dissolved organic N loss

We used a simple model of carbon–nitrogen (C–N) interactions in terrestrial ecosystems to examine the responses to elevated CO2 and to elevated CO2 plus warming in ecosystems that had the same total nitrogen loss but that differed in the ratio of dissolved organic nitrogen (DON) to dissolved inorganic nitrogen (DIN) loss. We postulate that DIN losses can be curtailed by higher N demand...
Authors
Edward Rastetter, Steven S. Perakis, Gaius Shaver, Goran Agren
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Nitrogen retention across a gradient of 15N additions to an unpolluted temperate forest soil in Chile Nitrogen retention across a gradient of 15N additions to an unpolluted temperate forest soil in Chile

Accelerated nitrogen (N) inputs can drive nonlinear changes in N cycling, retention, and loss in forest ecosystems. Nitrogen processing in soils is critical to understanding these changes, since soils typically are the largest N sink in forests. To elucidate soil mechanisms that underlie shifts in N cycling across a wide gradient of N supply, we added 15NH415NO3 at nine treatment levels...
Authors
Steven S. Perakis, Jana Compton, L. Hedin
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Nitrogen loss from nonpolluted South American forests mainly via dissolved organic compounds Nitrogen loss from nonpolluted South American forests mainly via dissolved organic compounds

Conceptual1,2,3,4 and numerical5,6,7,8 models of nitrogen cycling in temperate forests assume that nitrogen is lost from these ecosystems predominantly by way of inorganic forms, such as nitrate and ammonium ions. Of these, nitrate is thought to be particularly mobile, being responsible for nitrogen loss to deep soil and stream waters. But human activities—such as fossil fuel combustion
Authors
Steven S. Perakis, L. Hedin
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Nutrient limitation, hydrology and watershed nitrogen loss Nutrient limitation, hydrology and watershed nitrogen loss

No abstract available.
Authors
Steven S. Perakis
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Non-USGS Publications**

Perakis, S.S., Hedin, L.O., 2002, Response to commentary on "Nitrogen loss from unpolluted South American forests mainly via dissolved organic compounds": Nature, v. 418, p. 665-665.
Perakis, S.S., Welch, E.B., Jacoby, J.M., 1996, Sediment-to-water blue-green algal recruitment in response to alum and environmental factors: Hydrobiologia, v. 318, no. 3, p. 165-177.

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

To request an interview, contact fresc_outreach@usgs.gov or call (541) 750-1030.

Filter Total Items: 14
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