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LAMP Scientific Publications

Scientific Publications and Articles

Boldt, J.K., & J.E. Altland. 2019. Timing of a Short-term Reduction in Temperature and Irradiance Affects Growth and Flowering of Four Annual Bedding Plants. Horticulturae, 5(1), 15.

Craver, J.K., K.S. Nemali, & R.G. Lopez. 2020. Acclimation of Growth and Photosynthesis in Petunia Seedlings Exposed to High-Intensity Blue Radiation. J. Amer. Soc. Hort. Sci., 145(3), 152-161.

Craver, J.K., J.K. Boldt, & R.G. Lopez. 2018. Radiation Intensity and Quality from Sole-source Light-emitting Diodes affect Seedling Quality and Subsequent Flowering of Long-day Bedding Plant Species. HortScience, 53(10), 1407-1415.

Craver, J.K., J.R. Gerovac, R.G. Lopez, & D.A. Kopsell. 2017. Light Intensity and Light Quality from Sole-source Light-emitting Diodes Impact Phytochemical Concentrations within Brassica Microgreens. J. Amer. Soc. Hort. Sci., 142, 3-12.

Craver J.K., & R.G. Lopez. 2016. Control of Morphology by Manipulating Light Quality and Daily Light Integral Using LEDs. p. 203-217. In: Kozai T., K. Fujiwara, E. Runkle (ed.), LED Lighting for Urban Agriculture. Springer, Singapore.

Currey, C.J., D.A. Kopsell, N.S. Mattson, J.K. Craver, R.G. Lopez, J.E. Erwin, & C. Kubota. 2017. Supplemental and Sole-source Lighting of Leafy Greens, Herbs, and Microgreens, p. 170–180, In: R.G. Lopez, & E. Runkle (ed.). Light Management of Controlled Environments. Meister Media Worldwide, Willoughby, OH.

Elkins, C., & M.W. van Iersel. 2020. Longer Photoperiods with the Same Daily Light Integral Improve Growth of Rudbekia Seedlings in a Greenhouse. HortScience, 55(10), 1676–1682.

Elkins, C., & M.W. van Iersel. 2020. Longer Photoperiods with the Same Daily Light Integral Increase Daily Electron Transport through Photosystem II in Lettuce. Plants, 9(9), 1171.

Elkins, C., & M.W. van Iersel. 2020. Supplemental Far-red Light-emitting Diode Light Increases Growth of Foxglove Seedlings under Sole-source Lighting. HortTechnology, 50(5), 564–569.

Gerovac, J., J.K. Craver, J.K. Boldt, & R.G. Lopez. 2016. Light Intensity and Quality from Sole-source Light-emitting Diodes Impact Growth, Morphology, and Nutrient Content of Brassica Microgreens. HortScience, 51(5), 497-503.

Hurt, A., R.G. Lopez, & J.K. Craver. 2019. Supplemental but not Photoperiodic Lighting Increased Seedling Quality and Reduced Production Time of Annual Bedding Plants. HortScience, 54(2), 289-296.

Jayalath, T.C, & M.W. van Iersel. 2021. Canopy Size and Light Use Efficiency Explain Growth Differences between Lettuce and Mizuna in Vertical Farms. Plants, 10(4), 704.

Kusuma, P., B. Swan, & B. Bugbee. 2021. Does Green Really Mean Go? Increasing the Fraction of Green Photons Promotes Growth of Tomato but Not Lettuce or Cucumber. Plants, 10(4), 637.

Kusuma, P., & B. Bugbee. 2021. Improving the Predictive Value of Phytochrome Photoequilibrium: Consideration of Spectral Distortion Within a Leaf. Front. Plant Sci. 12:596943.

Kusuma, P., & B. Bugbee. 2020. Far-red Fraction: An Improved Metric for Characterizing Phytochrome Effects on Morphology. J. Amer. Soc. Hort. Sci. 146(1), 3-13.

Legendre, R., M.W. van Iersel. 2021. Supplemental Far-red Light Stimulates Lettuce Growth: Disentangling Morphological and Physiological Effects. Plants, 10(1), 166.

Liu, Jun, M.W. van Iersel. 2021. Photosynthetic Physiology of Blue, Green, and Red Light: Light Intensity Effects and Underlying Mechanisms. Front. Plant Sci. 12:619987.

Palmer, S., & M.W. van Iersel. 2020. Increasing Growth of Lettuce and Mizuna under Sole-source LED Lighting Using Longer Photoperiods with the Same Daily Light Integral. Agronomy, 10(11), 1659.

Pattison, P.M., J.Y. Tsao, G.C. Brainard, & B. Bugbee. 2018. LEDs for Photons, Physiology and FoodNature, 563, 493-500.

Swan, B.V., & B. Bugbee. 2018. Decreasing Blue Light Increases Growth of Four Diverse Species. Acta Horticulturae, 1212, 261-262.

Weaver, G., & M.W. van Iersel. 2019. Photochemical Characterization of Greenhouse-grown Lettuce (Lactuca sativa L.‘Green Towers’) with Applications for Supplemental Lighting Control. HortScience, 54(2), 317–322.

Williams K.A., C.T. Miller, & J.K. Craver. 2016. Light Quality Effects on Intumescence (Oedema) on Plant Leaves. p 275-286. In: Kozai T., K. Fujiwara, E. Runkle (ed.), LED Lighting for Urban Agriculture. Springer, Singapore.

van Iersel, M.W. 2017. Light, Photosynthesis, and Plant Growth. In: R.G. Lopez, & E. Runkle (ed.), Light Management in Controlled Environments. Meister Media Worldwide, Willouby, OH.

Zhen, S., & B. Bugbee. 2020. Substituting Far-red for Traditionally Defined Photosynthetic Photons Results in Equal Canopy Quantum Yield for CO2 Fixation and Increased Photon Capture during Long-term Studies: Implications for Re-defining PAR. Frontiers in Plant Science, 11, 581156.

Zhen, S., & B. Bugbee. 2020. Far-red Photons have Equivalent Efficiency to Traditional Photosynthetic Photons: Implications for Redefining Photosynthetically Active Radiation. Plant, Cell, and Environment, 43(5), 1259-1272.

Zhen, S., M. Haidekker, & M.W. van Iersel. 2018. Far-red Light Enhances Photochemical Efficiency in a Wavelength-dependent Manner. Physiologia Plantarum 167, 21-33.

Zhen, S., & M.W. van Iersel. 2017. Far-red Light is Needed for Efficient Photochemistry and Photosynthesis. Journal of Plant Physiology, 209, 115-122.

Zhen, S., & M.W. van Iersel. 2017. Photochemical Acclimation of Three Contrasting Species to Different Light Levels: Implications for Supplemental Lighting. J. Amer. Soc. Hort, Sci., 142(5), 346-354.

Zhen, S., & B. Bugbee. 2020. Steady-state Stomatal Responses of C3 and C4 Species to Blue Light Fraction: Interactions with CO2 Concentration. Plant, Cell, and Environment.

Bhuiyan, R., & M.W. van Iersel. 2021. Only Extreme Fluctuations in Light Levels Reduce Lettuce Growth Under Sole Source Lighting. Front. Plant Sci. 12:619973.

Craver, J.K., J.K. Boldt, & R.G. Lopez. 2019. Comparison of Supplemental Lighting Provided by High-pressure Sodium Lamps or Light-emitting Diodes for the Propagation and Finishing of Bedding in Plants in a Commercial Greenhouse. HortScience, 54, 52-59.

Kusuma, P., P.M. Pattison, & B. Bugbee. 2020. From Physics to Fixtures to Food: Current and Potential LED Efficacy. Horticulture Research 7:56.

van Iersel, M.W., & D. Gianino. 2017. An Adaptive Control Approach for LED Lights can Reduce the Energy Costs of Supplemental Lighting in Greenhouses. HortScience, 52, 72-77.

van Iersel, M.W. 2017. Optimizing LED Lighting in Controlled Environment Agriculture, p 59-80. In: S.D. Gupta (ed.). Light Emitting Diodes for Agriculture, Smart Lighting. Springer Verlag, Singapore.

Watson, R.T., M.-C. Boudreau, & M.W. van Iersel. 2018. Simulation of Greenhouse Energy Use: an Application of Energy Informatics. Energy Informatics, 1, 1.

Weaver, G., & M.W. van Iersel. 2020. Longer Photoperiods with Adaptive Lighting Control can Improve Growth of Greenhouse-grown ‘Little Gem’ Lettuce (Lactuca sativa). HortScience, 55(4), 573-580.

Weaver, G.M., M.W. van Iersel, & J.M. Velni. 2019. A Photochemistry-based Method for Optimising Greenhouse Supplemental Light Intensity. BioSystems Engineering, 182, 123-137.

Weaver G., & M.W. van Iersel. 2018. Modeling Energy-efficient Lighting Strategies for Petunia and Impatiens using Electron Transport Rate and Historical Weather Data. SNA Research Conference, Vol. 62.

 

Bugbee, B. 2017. Economics of LED Lighting, p 89-99. In: S.D. Gupta (ed.), Light Emitting Diodes for Agriculture, Smart Lighting. Springer Verlag, Singapore.

Fisher, P., A.J. Both, and B. Bugbee. 2017. Supplemental lighting Technology, Costs and efficiency, p. 74-81. In: R.G. Lopez, & E. Runkle (ed.), Light Management in Controlled Environments. Meister Media Worldwide, Willoughby, OH.

Kubota, C., M. Kroggel, A.J. Both, J.F. Burr, & M. Whalen. 2016. Does Supplemental Lighting Make Sense for my Crop? – Empirical Evaluations. Acta Horticulturae, 1134, 403-412.

Nicholson C.F., K. Harbick, M.I. Gómez, & N.S. Mattson. 2020. An Economic and Environmental Comparison of Conventional and Controlled Environment Agriculture (CEA) Supply Chains for Leaf Lettuce to US Cities, p. 33-68. In: Aktas E., & M. Bourlakis (ed.), Food Supply Chains in Cities. Palgrave Macmillan, Cham, Switzerland.

 

Afzali, S., S. Mosharafian, M.W. van Iersel, J.M. Velni. 2021. Optimal Lighting Control in Greenhouses Equipped with High-intensity Discharge Lamps Using Reinforcement Learning. American Control Conference (ACC), 1414-1419.

Both, A.J., B. Bugbee, C. Kubota, R.G. Lopez, C. Mitchell, E.S. Runkle, & C. Wallace. 2017. Proposed Product Label for Electric Lamps Used in Plant Sciences. HortTechnology, 27(4), 544-549.

Mosharafian, S., S. Afzali, G.M. Weaver, M.W. van Iersel, J.M. Velni. 2021. Optimal Lighting Control in Greenhouse by Incorporating Sunlight Prediction. Computers and Electronics in Agriculture 188, 106300.

Mosharafian, S., S. Afzali, J. Mohammadpour Velni, & M.W. van Iersel. 2020. Development and Implementation of a New Optimal Supplemental Lighting Control Strategy in Greenhouses. Proceedings of the ASME 2020 Dynamic Systems and Control Conference. Volume 1. Virtual, Online. October 5–7, 2020. V001T13A001. ASME.

Runkle, E., & A.J. Both. 2017. Delivering Long-day Lighting – Technology Options and Costs, p. 91-99. In: R.G. Lopez, & E. Runkle (ed.), Light Management in Controlled Environments. Meister Media Worldwide, Willoughby, OH.

Salazar, A., A. Berzoy, W. Song, & J.M. Velni. 2020. Energy Management of Islanded Nanogrids Through Nonlinear Optimization Using Stochastic Dynamic Programming. IEEE Transactions on Industry Applications, 56(3), 2129-2137.

Shelford, T.J., & A.J. Both. 2020. Plant Production in Controlled Environments. In: Holden, N.M., M.L. Wolfe, J.A. Ogejo, & E.J. Cummins (ed.), Introduction to Biosystems Engineering. Am. Soc. Ag. Bio. Eng. (ASABE) and Virginia Tech Publishing.

van Iersel, M.W., E. Mattos, G. Weaver, R.S. Ferrarezi, M.T. Martin, & M. Haidekker. 2016. Using Chlorophyll Fluorescence to Control Lighting in Controlled Environment Agriculture. Acta Horticulturae, 1134, 427-433.

van Iersel, M.W., G. Weaver, M.T. Martin, R.S. Ferrarezi, E. Mattos, & M. Haidekker. 2016. A Chlorophyll Fluorescence-based Biofeedback System to Control Photosynthetic Lighting in Controlled Environment Agriculture. J. Amer. Soc. Hort. Sci., 141(2), 169–176.

Wallace, C., & A.J. Both. 2016. Evaluating Operating Characteristics of Light Sources for Horticultural Applications. Acta Horticulturae, 1134, 435–443.

Marabesi, A. and Kelsey, K. 2020. An evaluation of social networks within a federally funded research project. Journal of Agricultural Education, 61(3), 261-275.

 

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