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Alam MM, Vilankar KP, Field DJ, Chandler DM (2014) Local masking in natural images: A database and analysis. Journal of Vision14:1–38.AlamMMVilankarKPFieldDJChandlerDM2014Local masking in natural images: A database and analysisJournal of Vision14138Search in Google Scholar
Atwell S, Huang YS, Vilhjálmsson BJ, Willems G, Horton M, Li Y, Meng H, Platt A, Tarone AM, Hu TT, Jiang R, Muliyati NW, Zhang X, Ali Amer M, Baxter I, Brachi B, Chory J, Dean C, Debieu M, de Meaux J, Ecker JR, Faure N, Kniskern JM, Jones JDG, Michael T, Nemri A, Roux F, Salt DE, Tang C, Todesco M, Traw MB, Weigel D, Marjoram P, Borevitz JO, Bergelson J, Nordborg M (2010) Genome-wide association study of 107 phenotypes in Arabidopsis thaliana inbred lines. Nature465:627–31.AtwellSHuangYSVilhjálmssonBJWillemsGHortonMLiYMengHPlattATaroneAMHuTTJiangRMuliyatiNWZhangXAli AmerMBaxterIBrachiBChoryJDeanCDebieuMde MeauxJEckerJRFaureNKniskernJMJonesJDGMichaelTNemriARouxFSaltDETangCTodescoMTrawMBWeigelDMarjoramPBorevitzJOBergelsonJNordborgM2010Genome-wide association study of 107 phenotypes in Arabidopsis thaliana inbred linesNature46562731Search in Google Scholar
Bauer LV, Barker RJ, Gilroy S (2022) SOApp (Simple Online Automated Plant Phenomics): Application for measuring plant vegetative phenotypes. ASGSR Abstract Book.BauerLVBarkerRJGilroyS2022SOApp (Simple Online Automated Plant Phenomics): Application for measuring plant vegetative phenotypesASGSR Abstract BookSearch in Google Scholar
Bauer LV, Barker RJ, Jenkins BE, Cauthorn G, Gilroy S (2024) SOApp (Simple Online Automated Plant Phenomics): Integrating plant phenomics and augmented reality to understand plant growth in space and on the ground. ASGSR Abstract Book.BauerLVBarkerRJJenkinsBECauthornGGilroyS2024SOApp (Simple Online Automated Plant Phenomics): Integrating plant phenomics and augmented reality to understand plant growth in space and on the groundASGSR Abstract BookSearch in Google Scholar
Betegón-Putze I, González A, Sevillano X, Blasco-Escámez D, Caño-Delgado AI. (2019) MyROOT: A method and software for the semiautomatic measurement of primary root length in Arabidopsis seedlings. Plant Journal98:1145–56.Betegón-PutzeIGonzálezASevillanoXBlasco-EscámezDCaño-DelgadoAI2019MyROOT: A method and software for the semiautomatic measurement of primary root length in Arabidopsis seedlingsPlant Journal98114556Search in Google Scholar
Clark RT, Famoso AN, Zhao K, Shaff JE, Craft EJ, Bustamante CD, McCouch S, Aneshansley DJ, Kochian LV (2013) High-throughput two-dimensional root system phenotyping platform facilitates genetic analysis of root growth and development. Plant, Cell and Environment36:454–66.ClarkRTFamosoANZhaoKShaffJECraftEJBustamanteCDMcCouchSAneshansleyDJKochianLV2013High-throughput two-dimensional root system phenotyping platform facilitates genetic analysis of root growth and developmentPlant, Cell and Environment3645466Search in Google Scholar
French A, Ubeda-Tomás S, Holman TJ, Bennett MJ, Pridmore T (2009) High-throughput quantification of root growth using a novel image-analysis tool. Plant Physiology150:1784–95.FrenchAUbeda-TomásSHolmanTJBennettMJPridmoreT2009High-throughput quantification of root growth using a novel image-analysis toolPlant Physiology150178495Search in Google Scholar
Galkovskyi T, Mileyko Y, Bucksch A, Moore B, Symonova O, Price CA, Topp CN, Iyer-Pascuzzi AS, Zurek PR, Fang S, Harer J, Benfey PN, Weitz JS (2012) GiA Roots: Software for the high throughput analysis of plant root system architecture. BMC Plant Biology12.GalkovskyiTMileykoYBuckschAMooreBSymonovaOPriceCAToppCNIyer-PascuzziASZurekPRFangSHarerJBenfeyPNWeitzJS2012GiA Roots: Software for the high throughput analysis of plant root system architectureBMC Plant Biology12Search in Google Scholar
Grubbs F (1969) Procedures for detecting outlying observations in samples. Technometrics11:1–21.GrubbsF1969Procedures for detecting outlying observations in samplesTechnometrics11121Search in Google Scholar
Horton MW, Hancock AM, Huang YS, Toomajian C, Atwell S, Auton A, Muliyati NW, Platt A, Sperone FG, Vilhjámsson BJ, Nordborg M, Borevitz JO, Bergelson J (2012) Arabidopsis thaliana accessions from the RegMap panel. Nature Genetics44:212–6.HortonMWHancockAMHuangYSToomajianCAtwellSAutonAMuliyatiNWPlattASperoneFGVilhjámssonBJNordborgMBorevitzJOBergelsonJ2012Arabidopsis thaliana accessions from the RegMap panelNature Genetics442126Search in Google Scholar
Humplík JF, Lazár D, Husičková A, Spíchal L (2015) Automated phenotyping of plant shoots using imaging methods for analysis of plant stress responses - A review. Plant Methods11:1–10.HumplíkJFLazárDHusičkováASpíchalL2015Automated phenotyping of plant shoots using imaging methods for analysis of plant stress responses - A reviewPlant Methods11110Search in Google Scholar
Ingram KI, Leers GA (2001) Software for measuring root characters from digital images. Agronomy Journal93:918–22.IngramKILeersGA2001Software for measuring root characters from digital imagesAgronomy Journal9391822Search in Google Scholar
Jacob V, Bhasi M, Gopikakumari R (2011) Impact of human factors on measurement errors. International Journal of Measurement Technologies and Instrumentation Engineering1:28–44.JacobVBhasiMGopikakumariR2011Impact of human factors on measurement errorsInternational Journal of Measurement Technologies and Instrumentation Engineering12844Search in Google Scholar
Kiss JZ, Brinckmann E, Brillouet C (2000) Development and growth of several strains of Arabidopsis seedlings in microgravity. International Journal of Plant Sciences161:55–62.KissJZBrinckmannEBrillouetC2000Development and growth of several strains of Arabidopsis seedlings in microgravityInternational Journal of Plant Sciences1615562Search in Google Scholar
Kiss JZ, Millar KDL, Edelmann RE (2012) Phototropism of Arabidopsis thaliana in microgravity and fractional gravity on the International Space Station. Planta236:635–45.KissJZMillarKDLEdelmannRE2012Phototropism of Arabidopsis thaliana in microgravity and fractional gravity on the International Space StationPlanta23663545Search in Google Scholar
Kiss JZ, Wolverton C, Wyatt SE, Hasenstein KH, van Loon JJWA (2019) Comparison of microgravity analogs to spaceflight in studies of plant growth and development. Frontiers in Plant Science10:1–10.KissJZWolvertonCWyattSEHasensteinKHvan LoonJJWA2019Comparison of microgravity analogs to spaceflight in studies of plant growth and developmentFrontiers in Plant Science10110Search in Google Scholar
Medina FJ, Manzano A, Herranz R, Kiss JZ (2022) Red light enhances plant adaptation to spaceflight and Mars g-levels. Life12:1–17.MedinaFJManzanoAHerranzRKissJZ2022Red light enhances plant adaptation to spaceflight and Mars g-levelsLife12117Search in Google Scholar
Millar KDL, Kumar P, Correll MJ, Mullen JL, Hangarter RP, Edelmann RE, Kiss JZ (2010) A novel phototropic response to red light is revealed in microgravity. New Phytologist186:648–56.MillarKDLKumarPCorrellMJMullenJLHangarterRPEdelmannREKissJZ2010A novel phototropic response to red light is revealed in microgravityNew Phytologist18664856Search in Google Scholar
Pierret A, Gonkhamdee S, Jourdan C, Maeght JL (2013) IJ_Rhizo: An open-source software to measure scanned images of root samples. Plant and Soil373:531–9.PierretAGonkhamdeeSJourdanCMaeghtJL2013IJ_Rhizo: An open-source software to measure scanned images of root samplesPlant and Soil3735319Search in Google Scholar
Seethepalli A, Dhakal K, Griffiths M, Guo H, Freschet GT, York LM (2021) RhizoVision Explorer: Open-source software for root image analysis and measurement standardization. AoB PLANTS13:1–15.SeethepalliADhakalKGriffithsMGuoHFreschetGTYorkLM2021RhizoVision Explorer: Open-source software for root image analysis and measurement standardizationAoB PLANTS13115Search in Google Scholar
Shymanovich T, Vandenbrink JP, Herranz R, Medina FJ, Kiss JZ (2022) Spaceflight studies identify a gene encoding an intermediate filament involved in tropism pathways. Plant Physiology and Biochemistry171:191–200.ShymanovichTVandenbrinkJPHerranzRMedinaFJKissJZ2022Spaceflight studies identify a gene encoding an intermediate filament involved in tropism pathwaysPlant Physiology and Biochemistry171191200Search in Google Scholar
Stephens MA (1979). Tests of fit for the logistic distribution based on the empirical distribution function. Biometrika66:591–595.StephensMA1979Tests of fit for the logistic distribution based on the empirical distribution functionBiometrika66591595Search in Google Scholar
Sugali K, Sprunger C, N Inukollu V (2021) AI testing: Ensuring a good data split between data sets (training and test) using K-means clustering and decision tree analysis. International Journal on Soft Computing12:1–11.SugaliKSprungerCN InukolluV2021AI testing: Ensuring a good data split between data sets (training and test) using K-means clustering and decision tree analysisInternational Journal on Soft Computing12111Search in Google Scholar
Symonova O, Topp CN, Edelsbrunner H (2015) DynamicRoots: A software platform for the reconstruction and analysis of growing plant roots. PLoS ONE10:1–15.SymonovaOToppCNEdelsbrunnerH2015DynamicRoots: A software platform for the reconstruction and analysis of growing plant rootsPLoS ONE10115Search in Google Scholar
Vandenbrink JP, Herranz R, Medina FJ, Edelmann RE, Kiss JZ (2016) A novel blue-light phototropic response is revealed in roots of Arabidopsis thaliana in microgravity. Planta244:1201–15.VandenbrinkJPHerranzRMedinaFJEdelmannREKissJZ2016A novel blue-light phototropic response is revealed in roots of Arabidopsis thaliana in microgravityPlanta244120115Search in Google Scholar
Wang L, Uilecan IV, Assadi AH, Kozmik CA, Spalding EP (2009) HYPOTrace: Image analysis software for measuring hypocotyl growth and shape demonstrated on arabidopsis seedlings undergoing photomorphogenesis. Plant Physiology149:1632–7.WangLUilecanIVAssadiAHKozmikCASpaldingEP2009HYPOTrace: Image analysis software for measuring hypocotyl growth and shape demonstrated on arabidopsis seedlings undergoing photomorphogenesisPlant Physiology14916327Search in Google Scholar
