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An actively curated bibliography of high impact LTER research products dating from 1980.

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Berntson GM, Rajakaruna N, Bazzaz FA. Species- and community-level growth and nitrogen acquisition in elevated CO2 atmospheres in an experimental annual community. Global Change Biology. 1998;4:101-120.

Berntson GM, Aber JD. The importance of fast nitrate immobilization in N-saturated temperate forest soils. Soil Biology and Biochemistry. 2000.

Berntson GM, Bazzaz FA. Belowground positive and negative feedbacks on CO2 growth enhancement. Plant and Soil. 1996;187:119-131.

Berntson GM, Bazzaz FA. Nitrogen cycling in microcosms of yellow birch exposed to elevated CO2: simultaneous positive and negative belowground feedbacks. Global Change Biology. 1997;3:247-258.

Berntson GM, Wayne PM, Bazzaz FA. Belowground architectural and mycorrhizal responses to elevated CO2 in Betula alleghaniensis populations. Functional Ecology. 1997;11:684-695.

Berntson GM, Lynch JP, Snapp S. Fractal geometry and the description of plant root systems: current perspectives and future applications. In: Smith Chaos and Fractals in Soil Science. Chaos and Fractals in Soil Science. Boca Raton; 1998. p. 113-152.

Berntson GM. Topological scaling and plant root system architecture: developmental and functional hierarchies. New Phytologist. 1997;135:621-634.

Berntson GM, Stoll P. Correcting for finite spatial scales of self-similarity when calculating the fractal dimensions of real-world structures. Proceedings of Royal Society, Biological Sciences. 1997;264:1531-1537.

Berntson GM, Bazzaz FA. Regenerating temperate forest microcosms in elevated CO2: species composition, belowground growth and nitrogen cycling. Oecologia. 1998;113:115-125.

Berntson GM, Bazzaz FA. The allometry of root production and loss in seedlings of Acer rubrum (Aceraceae) and Betula papyrifera (Betulaceae): implications for root dynamics in elevated CO2. American Journal of Botany. 1996;83:608-616.

Berntson GM, Bazzaz FA. Elevated CO2 and the magnitude and seasonal dynamics of root production and loss in Betula papyrifera. Plant and Soil. 1997;190:211-216.

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This material is based upon work supported by the National Science Foundation under Cooperative Agreements #DEB#9634135 (3/15/97 - 2/29/04), DEB#0236154 (3/1/03 - 2/28/10), DEB#0832652 (5/1/09 - 4/30/15 (Core funding)), DEB#0936498 (9/1/09 - 8/31/14 (ARRA funding)). Any opinions, findings, conclusions, or recommendations expressed in the material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.

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