, A methodology for model-based greenhouse design: Part 1, a greenhouse climate model for a broad range of designs and climates, Biosyst. Eng, vol.110, pp.363-377, 2011.
, Modelling of micrometeorology, canopy transpiration and photosynthesis in a closed greenhouse using computational fluid dynamics, vol.158, pp.110-133, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02392554
, Insights into the potential of semi-closed greenhouses and future perspectives for tomato crops, Acta Horti, vol.1227, pp.141-150, 2018.
, Concerning the Protection of Waters against Pollution Caused by Nitrates from Agricultural Sources, Council Directive 91/676/EEC of 12 December, p.20, 1991.
, Application of soilless culture technologies in the modern greenhouse industry-A review, Eur. J. Hortic. Sci, vol.83, pp.280-293, 2018.
, Guidelines to use tomato in experiments with a controlled environment, Front. Plant Sci, vol.5, pp.625-641, 2014.
, Inorganic nutrition of plants, Chronica Botanica Co, 1944.
, Van den Bos, A.; Baas, R. Voedingsoplossingen voor de teelt van tomaat in gesloten teeltsystemen, Brochure VG, 1997.
, Effects of low nitrogen supply on tomato (Solanum lycopersicum) fruit yield and quality with special emphasis on sugars, acids, ascorbate, carotenoids, and phenolic compounds, J. Agric. Food Chem, vol.57, pp.4112-4123, 2009.
, Production de la tomate de serre au Québec (guide technique, p.15, 2017.
, Modelling nitrate uptake by greenhouse tomato crops at the short and long time scales. Acta Horti, vol.456, pp.237-246, 1998.
, Trends in modelling nitrate uptake. Acta Horti, vol.507, pp.231-240, 1991.
, Nutrient Solutions for Soilless Cultures. In Plant Nutrition of Greenhouse Crops
, , pp.257-275, 2009.
, New Trends in the Fertigation Management of Irrigated Vegetable Crops, vol.3, p.37, 2017.
, Tomato quality as influenced by preharvest factors, Sci. Hortic, vol.233, pp.264-276, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02629176
, The constituents of tomato fruit-the influence of environment, nutrition, and genotype, CRC Crit. Rev. Food Sci. Nutr, vol.15, pp.205-280, 1981.
, Relationship between Sensory and Instrumental Analysis for Tomato Flavor, J. Amer. Soc. Hort. Sci, vol.123, pp.906-915, 1998.
, Tomato-a natural medicine and its health benefits, J. Pharmacogn. Phytochem, vol.1, pp.33-43, 2012.
, The genetics of fruit flavour preferences, Nat. Rev. Genet, vol.19, pp.347-356, 2018.
, How Does Tomato Quality (Sugar, Acid, and Nutritional Quality) Vary with Ripening Stage, Temperature, and Irradiance?, J. Agr. Food Chem, vol.56, pp.1241-1250, 2008.
, Water shortage and quality of fleshy fruits-making the most of the unavoidable, J. Exp. Bot, vol.65, pp.4097-4117, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01268584
, The potential of the magic tom parental accessions to explore the genetic variability in tomato acclimation to repeated cycles of water deficit and recovery. Front, Plant Sci, 1187.
URL : https://hal.archives-ouvertes.fr/hal-01273701
, Effects of fertilization and other agronomic measures on nutritional quality of crops, J. Sci. Food Agr, vol.88, pp.7-23, 2007.
, Assessing the response of yield and comprehensive fruit quality of tomato grown in greenhouse to deficit irrigation and nitrogen application strategies, Agr. Water Manage, vol.161, pp.9-19, 2015.
, Evaluation of the effects of irrigation and fertilization on tomato fruit yield and quality: A principal component analysis, vol.7, p.350, 2017.
, Impacts of genetic material and current technologies on product quality of selected greenhouse vegetables -A review, Eur. J. Horticul. Sci, vol.83, pp.319-328, 2018.
, Influence of repeated short-term nitrogen limitations on leaf phenolics metabolism in tomato, Phytochemistry, vol.77, pp.119-128, 2012.
, Effects of different levels of nitrogen fertilization on yield and fruit quality in processing tomato, Acta Horticulturae, vol.700, pp.129-132, 2006.
, Yield and Economic assessments of fertilizer nitrogen and phosphorus for processing tomato with drip fertigation, Agron. J, vol.102, pp.774-780, 2010.
, Crop responses to nitrogen overfertilization: A review, Scientia Horticulturae, vol.205, pp.79-83, 2016.
, Exploring the spatial distribution of light interception and photosynthesis of canopies by means of a functional-structural plant model, Ann. Bot, vol.107, pp.875-883, 2011.
, Sweet Pepper (Capsicum annuum L.) Canopy photosynthesis modeling using 3D plant architecture and light ray-tracing. Front, Plant Sci, vol.7, pp.1321-1331, 2016.
, How plant architecture affects light absorption and photosynthesis in tomato: Towards an ideotype for plant architecture using a functional-structural plant model, Ann. Bot, vol.108, pp.1065-1073, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01132291
, Allocating leaf nitrogen for the maximization of carbon gain: Leaf age as a control on the allocation program, Oecologia, vol.56, pp.341-347, 1989.
, A leaf gas exchange model that accounts for intra-canopy variability by considering leaf nitrogen content and local acclimation to radiation in grapevine (Vitis vinifera L.), Plant Cell Environ, vol.35, pp.1313-1328, 2012.
, Optimality of nitrogen distribution among leaves in plant canopies, J. Plant Res, vol.129, pp.299-311, 2016.
, Photosynthesis and nitrogen relationships in leaves of C3 plants, Oecologia, vol.78, pp.9-19, 1989.
, Steps towards an integrated view of nitrogen metabolism, J. Exp. Bot, vol.53, pp.959-970, 2002.
, Growth and Nitrogen Status of Soilless Tomato Plants Following Nitrate Withdrawal from the Nutrient Solution, Ann. Bot, vol.88, pp.361-370, 2001.
, Effect of nitrogen supply on leaf growth, leaf nitrogen economy and photosynthetic capacity in potato, Field Crop. Res, vol.59, pp.63-72, 1998.
, Effect of nitrogen supply on leaf appearance, leaf growth, leaf nitrogen economy and photosynthetic capacity in maize, Zea mays L.). Field Crop. Res, vol.93, pp.64-73, 2005.
, Growth and photosynthesis of Lycopersicon esculentum (L.) plants as affected by nitrogen deficiency, Biol. Plantarum, vol.35, 1997.
, Maximizing daily canopy photosynthesis with respect to the leaf nitrogen allocation pattern in the canopy, Oecologia, vol.72, pp.520-526, 1987.
, Nitrogen metabolism and remobilization during senescence, J. Exp. Bot, vol.53, pp.927-937, 2002.
, The distribution and identity of assimilates in tomato with special reference to stem reserves, Ann. Bot, vol.73, pp.315-325, 1994.
, Sugars as antioxidants, Crop improvement under adverse conditions, pp.285-307, 2013.
, Accumulation of nitrate in the shoot acts as a signal to regulate shoot-root allocation in tobacco, Plant J, vol.11, pp.671-691, 1997.
, How do plants respond to nutrient shortage by biomass allocation?, Trends Plant Sci, vol.11, pp.610-617, 2006.
, Sugar repression of photosynthesis: The role of carbohydrates in signalling nitrogen deficiency through source:sink imbalance, Plant Cell Environ, vol.20, pp.110-116, 1997.
, High decrease in nitrate leaching by lower N input without reducing greenhouse tomato yield, Agron. Sustain. Dev, vol.28, pp.489-495, 2008.
, Impacts of N-deprivation on the yield and nitrogen budget of rockwool grown tomatoes, Agronomie, vol.21, pp.341-350, 2001.
URL : https://hal.archives-ouvertes.fr/hal-00886122
, Impact of temporary nitrogen deprivation on tomato leaf phenolics, Int. J. Mol. Sci, vol.12, pp.7971-7981, 2011.
, Effect of nitrogen supply rate on disease resistance in tomato depends on the pathogen, Plant Soil, vol.218, pp.239-247, 2000.
, Nitrogen nutrition and use in horticultural crops, J. Crop Improv, vol.15, pp.323-367, 2006.
, Difference in volatile composition between the pericarp tissue and inner tissue of tomato (Solanum lycopersicum) fruit. J. Food Process Pres, vol.42, 2017.
, Temporal and spatial expression pattern of sucrose synthase during tomato fruit development, Plant Physiol, vol.104, pp.535-540, 1994.
, Sugar uptake by protoplasts isolated from tomato fruit tissues during various stages of fruit growth, Physiol. Plantarum, vol.101, pp.533-539, 1997.
, Spatial-temporal analyses of lycopene and sugar contents in tomatoes during ripening using chemical shift imaging, Postharvest Biology and Technology, vol.62, pp.17-25, 2011.
, Tissue specific analysis reveals a differential organization and regulation of both ethylene biosynthesis and E8 during climacteric ripening of tomato, BMC Plant Biol, vol.14, p.11, 2014.
, Remarkable Reproducibility of Enzyme Activity Profiles in Tomato Fruits Grown under Contrasting Environments Provides a Roadmap for Studies of Fruit Metabolism, Plant Physiol, vol.164, pp.1204-1221, 2014.
, Modelling central metabolic fluxes by constraint-based optimization reveals metabolic reprogramming of developing Solanum lycopersicum (tomato) fruit, Plant J, vol.81, pp.24-39, 2015.
, The expanded tomato fruit volatile landscape, J Exp Bot, vol.65, pp.4613-4623, 2014.
, Recent Advance in aromatic volatile research in tomato fruit: The metabolisms and regulations, Food Bioproc. Technol, vol.9, pp.203-216, 2016.
, A biophysical model of fruit growth: Simulation of seasonal and diurnal dynamics of mass, Plant Cell Environ, vol.21, pp.739-752, 1998.
, A dynamic model of tomato fruit growth integrating cell division, cell growth and endoreduplication, Funct. Plant Biol, vol.40, pp.1098-1114, 2013.
, Putting primary metabolism into perspective to obtain better fruits, Ann. Bot, vol.122, pp.1-21, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02539159
, Nitrogen fertilizers and the amount of vitamins in plants: A review, J. Plant Nutr, vol.16, pp.2479-2506, 1993.
, Regulation of tomato fruit ascorbate content is more highly dependent on fruit irradiance than leaf irradiance, Ann. Bot, vol.103, pp.495-504, 2009.
, Dynamic photosynthesis in different environmental conditions, J. Exp. Bot, vol.66, pp.2415-2426, 2015.
, A new procedure for extraction and measurement of soluble sugars in ligneous plants, J. Sci. Food Agr, vol.82, pp.360-369, 2002.
, Is monodehydroascorbate reductase activity in leaf tissue critical for the maintenance of yield in tomato?, J. Plant Physiol, vol.222, pp.1-8, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01669403