Bruce Bugbee
Cited by
Cited by
Inherent limitations of nondestructive chlorophyll meters: a comparison of two types of meters
OA Monje, B Bugbee
HortScience 27 (1), 69-71, 1992
Beneficial effects of humic acid on micronutrient availability to wheat
CL Mackowiak, PR Grossl, BG Bugbee
Soil Science Society of America Journal 65 (6), 1744-1750, 2001
Chemical hydrophobicity and uptake by plant roots
EM Dettenmaier, WJ Doucette, B Bugbee
Environmental science & technology 43 (2), 324-329, 2009
Economic analysis of greenhouse lighting: light emitting diodes vs. high intensity discharge fixtures
JA Nelson, B Bugbee
PloS one 9 (6), e99010, 2014
Nutrient management in recirculating hydroponic culture
B Bugbee
South Pacific Soilless Culture Conference-SPSCC 648, 99-112, 2003
LEDs for photons, physiology and food
PM Pattison, JY Tsao, GC Brainard, B Bugbee
Nature 563 (7732), 493-500, 2018
Exploring the limits of crop productivity: I. Photosynthetic efficiency of wheat in high irradiance environments
BG Bugbee, FB Salisbury
Plant Physiology 88 (3), 869-878, 1988
Spectral effects of three types of white light-emitting diodes on plant growth and development: absolute versus relative amounts of blue light
KR Cope, B Bugbee
HortScience 48 (4), 504-509, 2013
Understanding precision nitrogen stress to optimize the growth and lipid content tradeoff in oleaginous green microalgae
C Adams, V Godfrey, B Wahlen, L Seefeldt, B Bugbee
Bioresource Technology 131, 188-194, 2013
In situ measurement of leaf chlorophyll concentration: analysis of the optical/absolute relationship
C Parry, JM Blonquist Jr, B Bugbee
Plant, cell & environment 37 (11), 2508-2520, 2014
Hycrest crested wheatgrass accelerates the degradation of pentachlorophenol in soil
AM Ferro, RC Sims, B Bugbee
Journal of environmental quality 23 (2), 272-279, 1994
Sensitivity of seven diverse species to blue and green light: Interactions with photon flux
MC Snowden, KR Cope, B Bugbee
PLoS One 11 (10), e0163121, 2016
Differences in the Response of Wheat, Soybean and Lettuce to Reduced Blue Radiation¶
TAO Dougher, B Bugbee
Photochemistry and Photobiology 73 (2), 199-207, 2001
Automated measurement of canopy stomatal conductance based on infrared temperature
JM Blonquist Jr, JM Norman, B Bugbee
Agricultural and forest Meteorology 149 (11), 1931-1945, 2009
Far‐red photons have equivalent efficiency to traditional photosynthetic photons: Implications for redefining photosynthetically active radiation
S Zhen, B Bugbee
Plant, cell & environment 43 (5), 1259-1272, 2020
Changes in crested wheatgrass root exudation caused by flood, drought, and nutrient stress
A Henry, W Doucette, J Norton, B Bugbee
Journal of environmental quality 36 (3), 904-912, 2007
From physics to fixtures to food: Current and potential LED efficacy
P Kusuma, PM Pattison, B Bugbee
Horticulture research 7, 56, 2020
Biodiesel from microalgae, yeast, and bacteria: engine performance and exhaust emissions
BD Wahlen, MR Morgan, AT McCurdy, RM Willis, MD Morgan, DJ Dye, ...
Energy & Fuels 27 (1), 220-228, 2013
Photobiological interactions of blue light and photosynthetic photon flux: Effects of monochromatic and broad‐spectrum light sources
KR Cope, MC Snowden, B Bugbee
Photochemistry and photobiology 90 (3), 574-584, 2014
Adaptation to high CO2 concentration in an optimal environment: radiation capture, canopy quantum yield and carbon use efficiency
O Monje, B Bugbee
Plant, Cell & Environment 21 (3), 315-324, 1998
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