I do my best to maintain this page, but my ResearchGate or GoogleScholar profiles may provide a more up-to-date publication list.
In prep:
Quigley KM et al. Prescribed burn history and vegetation cover influence soil hydraulic conductivity of sandy, glacial outwash soils in northern Wisconsin.
In revision:
Quigley KM, Griffith DM, Donati GL, Anderson TM. Nutrients and precipitation explain global patterns of grass leaf silicification.
Accepted:
Quigley K, Wildt R, Sturtevant B, Kolka R, Dickinson M, Kern C, Donner D, Miesel JM. 2019. Fuels, Vegetation, and prescribed fire dynamics influence ash production and characteristics in a diverse landscape under active pine barrens restoration. Fire Ecology 15:5.
Quigley KM, Donati GL, Anderson TM. 2017. Variation in the soil ‘silicon landscape’ explains plant silica accumulation across environmental gradients in Serengeti. Plant and Soil 410(1-2): 217-229.
Quigley KM, Althoff AG, Donati GL. 2016. Inductively coupled plasma optical emission spectrometry as a reference method for silicon estimation by near infrared spectroscopy and potential application to global studies of plant chemistry. Microchemical Journal 129: 231-235.
Griffith DM, Quigley KM, Anderson TM. 2016. Leaf thickness controls variation in leaf mass area (LMA) among grazing-adapted grasses in Serengeti. Oecologia 181: 1035-1040.
Quigley KM, Anderson TM. 2014. Leaf silica concentration in Serengeti grasses increases with watering but not clipping: insights from a common garden study and literature review. Frontiers in Plant Science 5:568.
Quigley KM et al. Prescribed burn history and vegetation cover influence soil hydraulic conductivity of sandy, glacial outwash soils in northern Wisconsin.
In revision:
Quigley KM, Griffith DM, Donati GL, Anderson TM. Nutrients and precipitation explain global patterns of grass leaf silicification.
Accepted:
Quigley K, Wildt R, Sturtevant B, Kolka R, Dickinson M, Kern C, Donner D, Miesel JM. 2019. Fuels, Vegetation, and prescribed fire dynamics influence ash production and characteristics in a diverse landscape under active pine barrens restoration. Fire Ecology 15:5.
Quigley KM, Donati GL, Anderson TM. 2017. Variation in the soil ‘silicon landscape’ explains plant silica accumulation across environmental gradients in Serengeti. Plant and Soil 410(1-2): 217-229.
Quigley KM, Althoff AG, Donati GL. 2016. Inductively coupled plasma optical emission spectrometry as a reference method for silicon estimation by near infrared spectroscopy and potential application to global studies of plant chemistry. Microchemical Journal 129: 231-235.
Griffith DM, Quigley KM, Anderson TM. 2016. Leaf thickness controls variation in leaf mass area (LMA) among grazing-adapted grasses in Serengeti. Oecologia 181: 1035-1040.
Quigley KM, Anderson TM. 2014. Leaf silica concentration in Serengeti grasses increases with watering but not clipping: insights from a common garden study and literature review. Frontiers in Plant Science 5:568.