KBS LTER Publications

Publications associated with KBS LTER. Click on the pdf link to get open access papers or to sign-in (free and immediate) to get other papers. Click on the data link to get formally published datasets (other datasets available as noted within the publications). Other ways to view KBS LTER publications can be accessed by the Research | Publications menu above.

Publications are also available on our Google Scholar page

  • 2023

    Haan, N. L. and D. A. Landis. 2023. Pest suppression potential varies across 10 bioenergy cropping systems. GCB Bioenergy 15:765-775.

  • Haan, N. L., G. N. Benucci, C. M. Fiser, G. Bonito, and D. A. Landis. 2023. Contrasting effects of bioenergy crops on biodiversity. Science Advances 9:eadh7960.

  • Lei, C., J. Chen, and G. P. Robertson. 2023. Climate cooling benefits of cellulosic bioenergy crops from elevated albedo. GCB Bioenergy 15:1373-1386.

  • Lucas, M., J. Gil, G. P. Robertson, N. E. Ostrom, and A. Kravchenko. 2023. Changes in soil pore structure generated by the root systems of maize, sorghum and switchgrass affect in situ N2O emissions and bacterial denitrification. Biology and Fertility of Soils doi: 10.1007/s00374-023-01761-1

  • Mechan-Llontop, M. E., J. Mullet, and A. Shade. 2023. Phyllosphere exudates select for distinct microbiome members in sorghum epicuticular wax and aerial root mucilage. Phytobiomes Journal 7:184-197.

  • Zahorec, A. 2023. Microarthropod-microbe interactions on soil carbon dynamics in bioenergy cropping systems. Dissertation, Michigan State University, East Lansing MI.

  • 2020

    Sprunger, C. D., T. Martin, and M. Mann. 2020. Systems with greater perenniality and crop diversity enhance soil biological health. Agricultural & Environmental Letters 5:e20030.

  • Xu, J., S. S. Roley, M. M. Tfaily, R. K. Chu, and J. M. Tiedje. 2020. Organic amendments change soil organic C structure and microbial community but not total organic matter on sub-decadal scales. Soil Biology and Biochemistry 150:107986.

  • 2019

    Duncan, D. S., L. G. Oates, I. Gelfand, N. Millar, G. P. Robertson, and R. D. Jackson. 2019. Environmental factors function as constraints on soil nitrous oxide fluxes in bioenergy feedstock cropping systems. Global Change Biology Bioenergy 11:416-426.

  • Hussain, M. Z., S. K. Hamilton, A. K. Bhardwaj, B. Basso, K. Thelen, and G. P. Robertson. 2019. Evapotranspiration and water use efficiency of continuous maize and maize and soybean rotation in the upper Midwest U.S. Agricultural Water Management 221:92-98.

  • Kravchenko, A. N., A. K. Guber, B. S. Razavi, J. Koestel, E. V. Blagodatskaya, and Y. Kuzyakov. 2019. Spatial patterns of extracellular enzymes: Combining X-ray computed micro-tomography and 2D zymography. Soil Biology and Biochemistry 135:411-419.

  • Kravchenko, A. N., A. K. Guber, B. S. Rasavi, J. Koestel, M. Y. Quigley, G. P. Robertson, and Y. Kuzyakov. 2019. Microbial spatial footprint as a driver of soil carbon stabilization. Nature Communications 10:3121.

  • 2018

    Kravchenko, A. N., A. K. Guber, M. Y. Quigley, J. Koestel, H. Gandhi, and N. E. Ostrom. 2018. X‐ray computed tomography to predict soil N2O production via bacterial denitrification and N2O emission in contrasting bioenergy cropping systems. Global Change Biology - Bioenergy 10:894-909.

  • Sprunger, C. D. and G. P. Robertson. 2018. Data from: Early accumulation of active fraction soil carbon in newly established cellulosic biofuel systems. Dryad Digital Repository. https://doi.org/10.5061/dryad.7jq46.

  • Sprunger, C. D. and G. P. Robertson. 2018. Early accumulation of active fraction soil carbon in newly established cellulosic biofuel systems. Geoderma 318:42-51.

  • 2017

    Austin, E. E., K. Wickings, M. McDaniel, G. P. Robertson, and A. S. Grandy. 2017. Cover crop root contributions to soil carbon in a no-till corn bioenergy cropping system. Global Change Biology Bioenergy 9:1252-1263.

  • Austin, E. E., K. Wickings, M. , M.D., G. P. Robertson, and A. S. Grandy. 2017. Data from: Cover crop root contributions to soil carbon in a no-till corn bioenergy cropping system. Dryad Digital Repository https://doi.org/10.5061/dryad.bb458.

  • Zhang, B., C. R. Penton, C. Xue, J. F. Quensen, S. S. Roley, J. Guo, A. Garoutte, T. Zheng, and J. M. Tiedje. 2017. Soil depth and crop determinants of bacterial communities under ten biofuel cropping systems. Soil Biology and Biochemistry 112:140-152.

  • 2016

    Fox, A., T. N. Kim, C. A. Bahlai, J. M. Woltz, C. Gratton, and D. A. Landis. 2016. Cover crops have neutral effects on predator communities and biological control services in annual cellulosic bioenergy cropping systems. Agriculture, Ecosystems and Environment 232:101-109.

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