Add to ORKGNot AvailableA field experiment on irrigation schedulings and nitrogen rates was conducted to study the physiological, growth and yield responses of tomato under deficit irrigation and various N levels. Results obtained indicated that irrigation at 10 or 20 days (I1 and I2) had significantly higher gas exchange (photosynthesis rate, stomatal conductance and transpiration rate), photochemical efficiency of PS II (Fv/ Fm), RWC, leaf area, chlorophyll content and fruit production over 30 days irrigation intervals (I3). Most of these parameters were at par under I1 and I2, but significantly higher over I3. Nitrogen application had also significant effects on most of the physiological, growth and yield traits both at 45 and 75 DAT, however N at ...
Currently, 80% of the world's available fresh water resource is used for irrigated agriculture. Grow...
Water is crucial for agriculture and needs to be used effectively due to climate change and drought ...
Tomato production systems in Florida are typically intensively managed with high inputs of fertilize...
Not AvailableA field experiment on irrigation schedulings and nitrogen rates was conducted to study ...
In search of new innovations for saving irrigation water, fruit yield response and N-fertiliser reco...
Abstract: Tomatoes were grown in a plastic greenhouse under 2 irrigation programmes and four N-ferti...
Florida is the largest producer of fresh-market tomatoes in the United States. Production areas are ...
Field studies were conducted to determine the response of processing tomato (Lycopersicon esculentum...
The effect of continuous application of small quantities of nitrogen (N) in irrigation water and N a...
Tomatoes were grown in a plastic greenhouse under 2 irrigation programmes and four N-fertiliser conc...
Soil nutrients and water management practices according to the concept of 4R nutrient stewardship (r...
The tomato cultivated surface is one of the most important surfaces in the world. This crop needs a ...
Results of a research carried out in Gaudiano area in 1993 to study the influence of different irri...
Differing amounts of water were used to irrigate tomato in order to determine the effect of deficit ...
The need for production of high value crops has increased over the years, hence the need to more app...
Currently, 80% of the world's available fresh water resource is used for irrigated agriculture. Grow...
Water is crucial for agriculture and needs to be used effectively due to climate change and drought ...
Tomato production systems in Florida are typically intensively managed with high inputs of fertilize...
Not AvailableA field experiment on irrigation schedulings and nitrogen rates was conducted to study ...
In search of new innovations for saving irrigation water, fruit yield response and N-fertiliser reco...
Abstract: Tomatoes were grown in a plastic greenhouse under 2 irrigation programmes and four N-ferti...
Florida is the largest producer of fresh-market tomatoes in the United States. Production areas are ...
Field studies were conducted to determine the response of processing tomato (Lycopersicon esculentum...
The effect of continuous application of small quantities of nitrogen (N) in irrigation water and N a...
Tomatoes were grown in a plastic greenhouse under 2 irrigation programmes and four N-fertiliser conc...
Soil nutrients and water management practices according to the concept of 4R nutrient stewardship (r...
The tomato cultivated surface is one of the most important surfaces in the world. This crop needs a ...
Results of a research carried out in Gaudiano area in 1993 to study the influence of different irri...
Differing amounts of water were used to irrigate tomato in order to determine the effect of deficit ...
The need for production of high value crops has increased over the years, hence the need to more app...
Currently, 80% of the world's available fresh water resource is used for irrigated agriculture. Grow...
Water is crucial for agriculture and needs to be used effectively due to climate change and drought ...
Tomato production systems in Florida are typically intensively managed with high inputs of fertilize...