| Combined Passive Heating Systems in Mediterranean, Low-Cost, Greenhouse Cucumber Crops |
|
| Adaptation of standardised (FAO and ASCE) procedures of estimating net longwave and shortwave radiation to Mediterranean greenhouse crops |
|
| Evaluation of Trichogramma cacaeciae (Hymenoptera: Trichogrammatidae) and Blattisocius mali (Mesostigmata: Blattisociidae) in the Post-Harvest Biological Control of the Potato Tuber Moth (Lepidoptera: Gelechiidae): Use of Sigmoid Functions |
|
| Effects of gravel mulch on surface energy balance and soil thermal regime in an unheated plastic greenhouse |
|
| Selection of predatory mites for the biological control of potato tuber moth in stored potatoes |
|
| How mulching and canopy architecture interact in trapping solar radiation inside a Mediterranean greenhouse |
|
| Selection of Predatory Mites for the Biological Control of Potato Tuber Moth in Stored Potatoes |
|
| Microclimate and agronomical effects of internal impermeable screens in an unheated Mediterranean greenhouse |
|
| Reuse of rockwool slabs and perlite grow-bags in a low-cost greenhouse: Substrates' physical properties and crop production |
|
| How plastic mulches affect the thermal and radiative microclimate in an unheated low-cost greenhouse |
|
| Variation in Ethylene Production among Carnation New Cultivars |
|
| Antioxidant content and ascorbate metabolism in cherry tomato exocarp in relation to temperature and solar radiation |
|
| The plastic greenhouse industry of Spain |
|
| A Study of Direct Solar Radiation Transmission in Asymmetrical Multi-span Greenhouses using Scale Models and Simulation Models |
|
| Row covers for quality improvement of Chinese cabbage (Brassica rapa subsp. Pekinensis) |
|
| Effect of root zone temperature on accumulation of molybdenum and nitrogen metabolism in potato plants |
|
| Influence of thermal regime of soil on the sulfur (S) and selenium (Se) concentration in potato plants |
|
| The influence of the root zone temperatures on the phytoextraction of boron and aluminium with potato plants growing in the field |
|
| Accumulation of Zn, Cd, Cu, and Pb in Chinese cabbage as influenced by climatic conditions under protected cultivation |
|
| Root zone temperature affects the phytoextraction of Ba, Cl, Sn, Pt, and Rb using potato plants (Solanum tuberosum L. var. Spunta) in the field |
|
| Influence of root temperature on uptake and accumulation of Ni and Co in potato |
|
| Root-zone temperature influences the distribution of Cu and Zn in potato-plant organs |
|
| Effect of soil temperature on K and Ca concentrations and on ATPase and pyruvate kinase activity in potato roots |
|
| Yield and chemical composition of chinese cabbage in relation to thermal regime as influenced by Row Covers |
|
| Influence of root temperature on phytoaccumulation of As, Ag, Cr, and Sb in potato plants (Solanum Tuberosum L. var. Spunta) |
|
| Phytoextraction of Cd and Pb and physiological effects in potato plants (Solanum Tuberosum var. spunta): Importance of root temperature |
|
| The response of shoot accumulation of trace elements in chinese cabbage to microclimate modification |
|
| Production and composition of Chinese cabbage under plastic rowcovers in southern Spain |
|
| Production and composition of Chinese cabbage under plastic rowcovers in southern Spain |
|
| Temperature in relation to phosphorus nutrition in Chinese cabbage |
|
| Forms of sulfur in mature leaves of capsicum (Capsicum annuum L.) as affected by supplies of ammonium nitrate and potassium sulfate |
|
| The effect of external N and K concentrations on the leaf content of monovalent cations and their forms in capsicum plants |
|
| Effect of external NK concentrations on the leaf content of divalent cations, their forms and fractions in capsicum plants |
|
| Effect of nitrogen and potassium on the ionic balance in capsicum plants (Capsicum annuum L. c.v. Lamuyo) |
|
| Nitrogen and phosphorus metabolism and yield of capsicum plant (Capsicum annuum L. cv. Lamuyo) in response to increases in NK fertilization |
|
| The capsicum (Capsicum annuum L. cv. Lamuyo) foliar content of carbohydrates and pigments: Response to NK dosage |
|
| Potato performance in response to different mulches. 1. Nitrogen metabolism and yield |
|
| Optimum range in potato tubers grown under plastic mulches: II. Micronutrients |
|
| Optimum range in leaves of potato grown under plastic mulches: I. Macronutrients |
|
| Optimum range of micronutrients in Chinese cabbage (Brassica pekinensis [Lour] Rupr. cv. Nagaoka 50) grown under floating mulches |
|
| Optimum range of macronutrients in Chinese cabbage (Brassica pekinensis [Lour] Rupr. cv. Nagaoka 50) grown under floating mulch |
|
| Optimum range of biochemical indicators of micronutrients in Chinese cabbage (Brassica pekinensis [Lour] Rupr. cv. Nagaoka 50) grown under floating mulch |
|
| Optimum range of biochemical and physiological parameters of macronutrients for Chinese cabbage (Brassica pekinensis [Lour] Rupr. cv. Nagaoka 50) grown under floating mulch |
|
| Optimum range in potato tubers grown under plastic mulches: III Quality and physiological indices and parameters |
|
| Optimum range in leaves of potato grown under plastic mulches. V. Physiological indices and ionic balance |
|
| Optimum range in leaves of potato grown under plastic mulches: II. Bioindicators of macronutrients |
|
| Optimum range in leaves of potato grown under plastic mulches: III. Micronutrients |
|
| Optimum range in potato tubers grown under plastic mulches I. Macronutrients |
|
| Semi-forcing with floating mulch increases yield of Chinese cabbage (Brassica pekinensis [Lour] Rupr. cv. Nagaoka 50) |
|
| Growth responses of tomato plants under CuSO4 light filter: A comparison between wild type and aurea mutant |
|
| Phosphorus Metabolism and Yield Response to Increases in Nitrogen-Phosphorus Fertilization: Improvement in Greenhouse Cultivation of Eggplant (Solanum melongena Cv. Bonica) |
|
| Nitrogen Metabolism and Yield Response to Increases in Nitrogen-Phosphorus Fertilization: Improvement in Greenhouse Cultivation of Eggplant (Solanum melongena Cv. Bonica) |
|
