| 1 |
Definition and reasons of the necessity of production ecology, definition of production levels from the perspective of different schools |
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| 2 |
General notes about radiation- and water-limited production |
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| 3 |
General notes about nutrient-limited production |
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| 4 |
Explain the Physics of Light absorption and Distribution in Plant community, Calculating Light use Efficiency, Light Absorption Fraction, and Exponential Equation of light extinction in canop |
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| 5 |
Calculation of light extinction coefficient and factors affecting it in plant community |
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| 6 |
Respiration Process and its Components (Growth and Maintenance) Related to Production (1):General notes |
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| 7 |
Respiration Process and its Components (Growth and Maintenance) Related to Production (2):Formulation and calculations |
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| 8 |
Photosynthetic process in single leaf, plant community and its analysis |
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| 9 |
Limited Water Production, Water Absorption and Consumption in Transpiration, Transpiration Efficiency, Transpiration Efficiency Coefficient Calculation, Method of Calculating Growth Rate in Limited Water Conditions |
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| 10 |
Fundamentals of Production under Nutrient-limited Conditions and an Overview of the NPK Nutrient Cycle |
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| 11 |
Empirical relationships for estimating nitrogen, phosphorus and potassium supply |
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| 12 |
efficiency of nutrient elements use and yield estimation |
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| 13 |
Analysis of solutions for increasing production under nutrient-limited conditions- Production potential and the yield gap |
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| 14 |
Method of calculating yield loss due to competition of weeds, pests and diseases |
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| 15 |
The Future of Production in Agricultural Systems |
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