Citations (56)
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John J. Dempsey, Ian Wilson, Peter T. N. Spencer-Phillips & Dawn L. Arnold. (2022) Uptake and translocation of foliar applied phosphite and its effect on growth and development in cool season turfgrass. Journal of Plant Nutrition 45:13, pages 2003-2022.
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Apurba K. Sutradhar, Daryl B. Arnall, Bruce L. Dunn & William R. Raun. (2019) Does phosphite, a reduced form of phosphate contribute to phosphorus nutrition in corn (Zea mays L.)?. Journal of Plant Nutrition 42:9, pages 982-989.
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Olfa Dabbaghi, Meriem Tekaya, Naouraz M'barki, Sarra Ouled ali, Sevgi Öden, Mouna Aïachi Mezghani, Faouzi Attia, Foued Labidi, Els Prinsen, Mohamed Hammami & Beligh Mechri. (2018) Effect of foliar bio-fertilization on growth and biochemical parameters of olive trees at flowering. Journal of Plant Nutrition 41:18, pages 2281-2297.
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Frank J. Dirrigl, Courtney J. Huston & Marisol Bazaldua. (2016) Research Article: Evaluating Stormwater Canals for Water Quality in the Lower Rio Grande Valley, Texas. Environmental Practice 18:1, pages 6-17.
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Wahida Boufas, Hadjer Cheloufi, Fouzia Bouchareb, Malika Berredjem & Nour-Eddine Aouf. (2015) Convenient Synthesis of Novel N-Acylsulfonamides Containing Phosphonate Moiety. Phosphorus, Sulfur, and Silicon and the Related Elements 190:1, pages 103-111.
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C. Constán-Aguilar, E. Sánchez-Rodríguez, M.
M. Rubio-Wilhelmi, M.
A. Camacho, L. Romero, J.
M. Ruiz & B. Blasco. (2014) Physiological and Nutritional Evaluation of the Application of Phosphite as a Phosphorus Source in Cucumber Plants. Communications in Soil Science and Plant Analysis 45:2, pages 204-222.
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Sihem Hessainia, Malika Berredjem, Souad Ouarna, Zinelaabidine Cheraiet & Nour-Eddine Aouf. (2013) Efficient Synthesis of Modified Sulfamides and Cyclosulfamides Containing Phosphonate Moieties. Phosphorus, Sulfur, and Silicon and the Related Elements 188:6, pages 719-725.
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Hoang
Thi Bich Thao & Takeo Yamakawa. (2009) Phosphite (phosphorous acid): Fungicide, fertilizer or bio-stimulator?. Soil Science and Plant Nutrition 55:2, pages 228-234.
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Hoang Thi
Bich Thao, Takeo Yamakawa, Aung
Kyaw Myint & Papa
Saliou Sarr. (2008) Effects of phosphite, a reduced form of phosphate, on the growth and phosphorus nutrition of spinach (Spinacia oleracea L.). Soil Science and Plant Nutrition 54:5, pages 761-768.
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Vladimir Orbović, JamesP. Syvertsen, Diane Bright, DeborahL. Van Clief & JamesH. Graham. (2008) Citrus Seedling Growth and Susceptibility to Root Rot as Affected by Phosphite and Phosphate. Journal of Plant Nutrition 31:4, pages 774-787.
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P.A. Abbasi & G. Lazarovits. (2005) Effects of AG3 phosphonate formulations on incidence and severity of Pythium damping-off of cucumber seedlings under growth room, microplot, and field conditions. Canadian Journal of Plant Pathology 27:3, pages 420-429.
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SiyuanC. Morton & Marc Edwards. (2005) Reduced Phosphorus Compounds in the Environment. Critical Reviews in Environmental Science and Technology 35:4, pages 333-364.
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Allison
E. McDonald, Bruce
R. Grant & William
C. Plaxton. (2001) PHOSPHITE (PHOSPHOROUS ACID): ITS RELEVANCE IN THE ENVIRONMENT AND AGRICULTURE AND INFLUENCE ON PLANT PHOSPHATE STARVATION RESPONSE. Journal of Plant Nutrition 24:10, pages 1505-1519.
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Articles from other publishers (43)
Jakob Köchermann & Marco Klemm. (2023) Hydrothermal Reactive Distillation of Biomass and Biomass Hydrolysates for the Recovery and Separation of Furfural and Its Byproducts. Industrial & Engineering Chemistry Research 62:18, pages 6886-6896.
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Sílvia Afonso, Ivo Oliveira, Anne S. Meyer & Berta Gonçalves. (2022) Biostimulants to Improved Tree Physiology and Fruit Quality: A Review with Special Focus on Sweet Cherry. Agronomy 12:3, pages 659.
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R.P. Yanda, R.B. Mayang, B. Marwoto, M. Thamrin & M.T. Ratule. (2022) Flowering acceleration of cut chrysanthemums through the application of modified physical environment, nutrition, and plant growth regulators. Acta Horticulturae:1334, pages 325-332.
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Neda Najdabbasi, Seyed Mahyar Mirmajlessi, Kevin Dewitte, Marika Mänd, Sofie Landschoot & Geert Haesaert. (2022) Combination of Potassium Phosphite and Reduced Doses of Fungicides Encourages Protection against Phytophthora infestans in Potatoes. Agriculture 12:2, pages 189.
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Ilias Bouchkira, Abderrazak M. Latifi, Lhachmi Khamar & Saad Benjelloun. (2022) Modeling and multi-objective optimization of the digestion tank of an industrial process for manufacturing phosphoric acid by wet process. Computers & Chemical Engineering 156, pages 107536.
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Ivan Herman Fischer, Lucas Meleiro da Silva, Rosemary Marques de Almeida Bertani, Angélica Cristina Fernandes Deus, Vicente Mota da Silva & Marcelo de Almeida Silva. (2021) Target Spot Control and Modulation of the Physiology in Cucumber Using Phosphites and ChitosanKontrolle der Blattfleckenkrankeit und physiologische Änderungen bei Gurken durch Phosphite und Chitosan. Gesunde Pflanzen 73:4, pages 521-531.
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Maria Chiara Manghi, Mauro Masiol, Riccardo Calzavara, Pier Luigi Graziano, Elisabetta Peruzzi & Bruno Pavoni. (2021) The use of phosphonates in agriculture. Chemical, biological properties and legislative issues. Chemosphere 283, pages 131187.
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John L. Havlin & Alan J. Schlegel. (2021) Review of Phosphite as a Plant Nutrient and Fungicide. Soil Systems 5:3, pages 52.
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Mohamad Hesam Shahrajabian, Christina Chaski, Nikolaos Polyzos & Spyridon A. Petropoulos. (2021) Biostimulants Application: A Low Input Cropping Management Tool for Sustainable Farming of Vegetables. Biomolecules 11:5, pages 698.
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Eric T. Stafne & Barbara J. Smith. (2021) Higher Renovation Pruning Height Improves Early Yields of ‘Woodard’ Rabbiteye Blueberry. HortTechnology 31:2, pages 188-191.
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Pushp Sheel Shukla & Balakrishnan Prithiviraj. (2021) Ascophyllum nodosum Biostimulant Improves the Growth of Zea mays Grown Under Phosphorus Impoverished Conditions. Frontiers in Plant Science 11.
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Clint M. Mattox, Alec R. Kowalewski, Brian W. McDonald, John G. Lambrinos & Jay W. Pscheidt. (2020) Combinations of rolling, mineral oil, sulfur, and phosphorous acid affect Microdochium patch severity. Agronomy Journal 112:5, pages 3383-3395.
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Maria Vinas, Juan C. Mendez & Víctor M. Jiménez. (2020) Effect of foliar applications of phosphites on growth, nutritional status and defense responses in tomato plants. Scientia Horticulturae 265, pages 109200.
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K.G. Coimbra, J.R. Peixoto, M.R. Santim & M.S. Nunes. (2019) Effect of fertilizers and compounds resistance inducers in the agronomic performance of cultivars of processing tomato. Acta Horticulturae:1249, pages 91-96.
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Tewodros Mulugeta, Kibrom Abreha, Habte Tekie, Bayeh Mulatu, Mohammed Yesuf, Erik Andreasson, Erland Liljeroth & Erik Alexandersson. (2019) Phosphite protects against potato and tomato late blight in tropical climates and has varying toxicity depending on the Phytophthora infestans isolate. Crop Protection 121, pages 139-146.
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Tewodros Mulugeta, Bayeh Mulatu, Habte Tekie, Mohammed Yesuf, Erik Andreasson & Erik Alexandersson. (2019)
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Raquel Villena, María Teresa Castellanos, María Carmen Cartagena, Francisco Ribas, Augusto Arce, María Jesús Cabello & María Isabel Requejo. (2018) Winery distillery waste compost effect on the performance of melon crop under field conditions. Scientia Agricola 75:6, pages 494-503.
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Loris Tonidandel, Tomás Román, Giorgio Nicolini & Roberto Larcher. (2018) First evidence of ethyl-hydrogen phosphonate (fosetyl) formation in winemaking. Food Chemistry 256, pages 297-303.
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Josinaldo Lopes Araujo, Fabrício William de Ávila & Valdemar Faquin. (2016) Phosphite and phosphate in the accumulation and translocation of nutrients in common bean1. Pesquisa Agropecuária Tropical 46:4, pages 357-366.
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Mee Kyung Sang, Jeong Do Kim, Beom Seok Kim & Ki Deok Kim. (2011) Root Treatment with Rhizobacteria Antagonistic to Phytophthora Blight Affects Anthracnose Occurrence, Ripening, and Yield of Pepper Fruit in the Plastic House and Field. Phytopathology® 101:6, pages 666-678.
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Sergey N. Tverdomed, Jacek Kolanowski, Enno Lork & Gerd-Volker Röschenthaler. (2011) An effective synthetic route to ortho-difluoromethyl arylphosphosphonates: studies on the reactivity of phosphorus- and fluorine-containing functions. Tetrahedron 67:21, pages 3887-3903.
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John C. Palumbo. (2011) Influence of Adjuvants and Spray Timing of Movento on Aphid Contamination and Crop Injury in Baby Spinach. Plant Health Progress 12:1.
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S. Laywisadkul, C.F. Scagel, L.H. Fuchigami & R.G. Linderman. (2010) Spraying Leaves of Pear Nursery Trees with Urea and Copper Ethylenediaminetetraacetic Acid Alters Tree Nitrogen Concentration without Influencing Tree Susceptibility to Phytophthora syringae. HortTechnology 20:2, pages 331-342.
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Andréa Chaves, Elvira Maria Régis Pedrosa, Rejane Magalhães de Mendonça Pimentel, Rildo Sartori Barbosa Coelho, Lílian Margarete Paes Guimarães & Sandra Roberta Vaz Lira Maranhão. (2009) Resistance induction for Meloidogyne incognita in sugarcane through mineral organic fertilizers. Brazilian Archives of Biology and Technology 52:6, pages 1393-1400.
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Arne M. Ratjen & Jóska Gerendás. (2009) A critical assessment of the suitability of phosphite as a source of phosphorus. Journal of Plant Nutrition and Soil Science 172:6, pages 821-828.
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Hoang Thi Bich Thao, Takeo Yamakawa & Katsuhiro Shibata. (2009)
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Erik H. Ervin, David S. McCall & Brandon J. Horvath. (2009) Efficacy of Phosphite Fungicides and Fertilizers for Control of Pythium Blight on a Perennial Ryegrass Fairway in Virginia. ats 6:1, pages 0.
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Ran Erel, Arnon Dag, Alon Ben-Gal, Amnon Schwartz & Uri Yermiyahu. (2008) Flowering and Fruit Set of Olive Trees in Response to Nitrogen, Phosphorus, and Potassium. Journal of the American Society for Horticultural Science 133:5, pages 639-647.
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Hoang Thi Bich Thao, Takeo Yamakawa, Katsuhiro Shibata, Papa Saliou Sarr & Aung Kyaw Myint. (2008) Growth response of komatsuna (Brassica rapa var. peruviridis) to root and foliar applications of phosphite. Plant and Soil 308:1-2, pages 1-10.
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P. A. Abbasi & G. Lazarovits. (2006) Seed Treatment with Phosphonate (AG3) Suppresses Pythium Damping-off of Cucumber Seedlings. Plant Disease 90:4, pages 459-464.
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