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Bruce Bugbee
Title
Cited by
Cited by
Year
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
4362001
Inherent limitations of nondestructive chlorophyll meters: a comparison of two types of meters
OA Monje, B Bugbee
HortScience 27 (1), 69-71, 1992
4291992
Economic analysis of greenhouse lighting: light emitting diodes vs. high intensity discharge fixtures
JA Nelson, B Bugbee
PloS one 9 (6), e99010, 2014
3862014
Nutrient management in recirculating hydroponic culture
B Bugbee
South Pacific Soilless Culture Conference-SPSCC 648, 99-112, 2003
3752003
Chemical hydrophobicity and uptake by plant roots
EM Dettenmaier, WJ Doucette, B Bugbee
Environmental science & technology 43 (2), 324-329, 2009
3682009
LEDs for photons, physiology and food
PM Pattison, JY Tsao, GC Brainard, B Bugbee
Nature 563 (7732), 493-500, 2018
3622018
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
2912014
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
2891988
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
2812013
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
2792013
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
2392016
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
2331994
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
2192020
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
2162001
From physics to fixtures to food: Current and potential LED efficacy
P Kusuma, PM Pattison, B Bugbee
Horticulture research 7, 2020
2092020
Automated measurement of canopy stomatal conductance based on infrared temperature
JM Blonquist Jr, JM Norman, B Bugbee
Agricultural and forest Meteorology 149 (12), 2183-2197, 2009
2072009
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
1922007
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
1842013
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
1672014
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
1491998
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