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Hussam S.M. Khierallah, Saleh M. Bader, Michael Baum, and Alladin Hamwieh

abundant, dispersed throughout the genome, and show higher levels of polymorphism than other genetic markers. These features, coupled with their ease of detection, had suggested being useful molecular markers. Their potential for automation and inheritance

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Charles E. Barrett, Xin Zhao, and Robert McSorley

grafting: Diffusion, grafting techniques, automation Sci. Hort. 127 93 105 López-Pérez, J.A. Le Strange, M. Kaloshian, I. Ploeg, A.T. 2006 Differential response of Mi gene-resistant tomato rootstocks to root-knot nematodes ( Meloidogyne incognita ) Crop

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Francisco Doñas-Uclés, Diego Pérez-Madrid, Celia Amate-Llobregat, Enrique M. Rodríguez-García, and Francisco Camacho-Ferre

, S.J. Bie, Z. Hoyos-Echevarria, P. Morra, L. Oda, M. 2010 Current status of vegetable grafting: Diffusion, grafting techniques, automation Sci. Hort. 127 93 105 Liao, C.T. Lin, C.H. 1996 Photosynthetic responses of grafted bitter melon seedlings to

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Jesse Wimer, Debra Inglis, and Carol Miles

. Phytopathol. 47 39 62 Lee, J. Kubota, C. Tsao, S.J. Bie, Z. Hoyos Echevarria, P. Morra, L. Oda, M. 2010 Current status of vegetable grafting: Diffusion, grafting techniques, automation Sci. Hort. 127 93 105 Lopez-Galarza, S. San Bautista, A. Perez, D.M. Miguel

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Benard Yada, Gina Brown-Guedira, Agnes Alajo, Gorrettie N. Ssemakula, Robert O.M. Mwanga, and G. Craig Yencho

amenable for automation making them useful for genetic studies in hexaploid sweetpotato. We also recommend that more sweetpotato SSR markers be developed in future for enhancing genetic studies in sweetpotato. Ultimately, the sweetpotato genomics and

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Christian Andreasen, Andrius Hansen Kemezys, and Renate Müller

germination in various seed batches are essential for growers of ornamental plants, especially because of increasing automation in sowing practices. Consequently, seed companies are interested in identifying critical factors that influence seed production and

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Michael A. Arnold

innovative developments in technology are another area in which horticulture can be relevant in the 21 st century corporate university. This is an area particularly ripe for quick payoffs. Innovations in increasing automation of horticulture crop production

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Jesse Wimer, Debra Inglis, and Carol Miles

, automation Sci. Hort. 127 93 105 Louws, F.J. Rivard, C.L. Kubota, C. 2010 Grafting fruiting vegetables to manage soilborne pathogens, foliar pathogens, arthropods and weeds Sci. Hort. 127 127 146 Miguel, A. Maroto, J.V. San Bautista, A. Baixauli, C. Cebolla

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Julián Miralles-Crespo and Marc W. van Iersel

precise irrigation scheduling in uniform nursery container mixes ( Shock and Wang, 2011 ). Jones (2007) concluded that soil θ is the most valuable environmental or plant variable for irrigation control, allowing for easy automation. Automating irrigation

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Richard C. Beeson Jr

process is based on plant canopy responses to the environment and lends itself to automation. Once the relationship between %Closure and WNI is established, estimation of daily ET A can be easily accomplished through spreadsheet calculations or with a