Pastore, MA, Classen, AT, Frey, SD, English, ME, Rand, K, Adair, EC. Soil microbial legacies influence freeze-thaw responses of soil. Functional Ecology (IF: 6.282). (2023).
Hudson, AR, Peters, DPC, Blair, JM, Childers, DL, Doran, PT, Geil, K, Gooseff, M, Gross, KL, Haddad, NM, Pastore, MA, Rudgers, JA, Sala, O, Seabloom, EW, Shaver, G. Cross-site comparisons of dryland ecosystem response to climate change in the US Long-term Ecological Research network. BioScience (IF: 11.566). biab134 (2022).
Pastore, MA. Bringing the underground to the surface: Climate change stressors negatively affect plant growth, with contrasting above and belowground physiological responses. Plant, Cell & Environment (IF: 7.947). 45: 2267-2270 (2022).
Pastore, MA, Adair, EC, Classen, AT, D’Amato, AW, Foster, JR. Cold-air pools as microrefugia for ecosystem functions in the face of climate change. Ecology (IF: 6.433). 103: e3717 (2022).
Pastore, MA, Hobbie, SH, Reich, PB. Sensitivity of grassland carbon pools to plant diversity, elevated CO2, and soil nitrogen addition over 19 years. Proceedings of the National Academy of Sciences (IF: 12.779). 118: e2016965118 (2021).
Reich, PB, Hobbie, SH, Lee, TD, Rich, R, Pastore, MA, Worm, K. Synergistic effects of four climate change drivers on terrestrial carbon cycling. Nature Geoscience (IF: 21.531). 13: 787-793 (2020).
Pastore, MA, Lee, TD, Hobbie, SH, Reich, PB. Interactive effects of elevated CO2, warming, reduced rainfall, and increased nitrogen on leaf gas exchange in five perennial grassland species. Plant, Cell & Environment (IF: 7.947). 43: 1862 1878 (2020).
Pastore, MA, Lee, TD, Hobbie, SH, Reich, PB. Strong photosynthetic acclimation and enhanced water-use efficiency in grassland functional groups persist over 21 years of CO2 enrichment, independent of nitrogen supply. Global Change Biology (IF: 13.211). 25: 3031-3044 (2019).
Reich, PB, Hobbie, SH, Lee, TD, Pastore, MA. Unexpected reversal of C3 vs C4 grass response to elevated CO2 during a 20-year field experiment. Science (IF: 63.714). 360: 317-320 (2018).
Science published two technical comments that address the above Reich et al. 2018 article. Each appears with a response from Reich, Hobbie, Lee, and Pastore in Science 361: eeau8982 and eaau1300 (2018).
Pastore, MA, Megonigal, JP, Langley, JA. Elevated CO2 and nitrogen addition accelerate net carbon gain in a brackish marsh. Biogeochemistry (IF: 4.812). DOI: 10.1007/s10533-017-0312-2. 33: 73-87 (2017).
Pastore, MA, Megonigal, JP, Langley, JA. Elevated CO2 promotes long-term nitrogen accumulation only in combination with nitrogen addition. Global Change Biology (IF: 13.211). 22: 391-403 (2016).
McCormack, ML, Gaines, KL, Pastore, MA, Eissenstat, DM. Early season root production in relation to leaf production among six diverse temperate tree species. Plant and Soil (IF: 4.993). 389: 121-129 (2015).
Pastore, MA. The impact of nitrogen eutrophication on Caribbean coral reefs: a review. CONCEPT. 37 (2014).
Hudson, AR, Peters, DPC, Blair, JM, Childers, DL, Doran, PT, Geil, K, Gooseff, M, Gross, KL, Haddad, NM, Pastore, MA, Rudgers, JA, Sala, O, Seabloom, EW, Shaver, G. Cross-site comparisons of dryland ecosystem response to climate change in the US Long-term Ecological Research network. BioScience (IF: 11.566). biab134 (2022).
Pastore, MA. Bringing the underground to the surface: Climate change stressors negatively affect plant growth, with contrasting above and belowground physiological responses. Plant, Cell & Environment (IF: 7.947). 45: 2267-2270 (2022).
Pastore, MA, Adair, EC, Classen, AT, D’Amato, AW, Foster, JR. Cold-air pools as microrefugia for ecosystem functions in the face of climate change. Ecology (IF: 6.433). 103: e3717 (2022).
Pastore, MA, Hobbie, SH, Reich, PB. Sensitivity of grassland carbon pools to plant diversity, elevated CO2, and soil nitrogen addition over 19 years. Proceedings of the National Academy of Sciences (IF: 12.779). 118: e2016965118 (2021).
Reich, PB, Hobbie, SH, Lee, TD, Rich, R, Pastore, MA, Worm, K. Synergistic effects of four climate change drivers on terrestrial carbon cycling. Nature Geoscience (IF: 21.531). 13: 787-793 (2020).
Pastore, MA, Lee, TD, Hobbie, SH, Reich, PB. Interactive effects of elevated CO2, warming, reduced rainfall, and increased nitrogen on leaf gas exchange in five perennial grassland species. Plant, Cell & Environment (IF: 7.947). 43: 1862 1878 (2020).
Pastore, MA, Lee, TD, Hobbie, SH, Reich, PB. Strong photosynthetic acclimation and enhanced water-use efficiency in grassland functional groups persist over 21 years of CO2 enrichment, independent of nitrogen supply. Global Change Biology (IF: 13.211). 25: 3031-3044 (2019).
Reich, PB, Hobbie, SH, Lee, TD, Pastore, MA. Unexpected reversal of C3 vs C4 grass response to elevated CO2 during a 20-year field experiment. Science (IF: 63.714). 360: 317-320 (2018).
Science published two technical comments that address the above Reich et al. 2018 article. Each appears with a response from Reich, Hobbie, Lee, and Pastore in Science 361: eeau8982 and eaau1300 (2018).
Pastore, MA, Megonigal, JP, Langley, JA. Elevated CO2 and nitrogen addition accelerate net carbon gain in a brackish marsh. Biogeochemistry (IF: 4.812). DOI: 10.1007/s10533-017-0312-2. 33: 73-87 (2017).
Pastore, MA, Megonigal, JP, Langley, JA. Elevated CO2 promotes long-term nitrogen accumulation only in combination with nitrogen addition. Global Change Biology (IF: 13.211). 22: 391-403 (2016).
McCormack, ML, Gaines, KL, Pastore, MA, Eissenstat, DM. Early season root production in relation to leaf production among six diverse temperate tree species. Plant and Soil (IF: 4.993). 389: 121-129 (2015).
Pastore, MA. The impact of nitrogen eutrophication on Caribbean coral reefs: a review. CONCEPT. 37 (2014).
