Analytical Techniques for Natural Product Research
CABI
2015
EISBN 9781780647562
CLIMATE CHANGE AND COTTON PRODUCTION IN MODERN FARMING SYSTEMS; COPYRIGHT; CONTENTS; LIST OF ABBREVIATIONS; SUMMARY; I INTRODUCTION; II CLIMATE CHANGE IMPACTS ON MAJOR COTTON PRODUCTION REGIONS; III CLIMATE CHANGE IMPACTS ON COTTON GROWTH AND PRODUCTION; 3.1. Impacts on Cotton Physiology, Growth, Yield and Quality; 3.1.1. Technologies used in climate change investigations in cotton; Controlled environments; Soil-plant-atmosphere-research; Canopy evapotranspiration and assimilation; Open top chambers; Free-air CO2 enrichment; 3.1.2. Effect of elevated CO2 concentration
Photosynthesis and respirationStomatal conductance and transpiration; Phenology; Growth, yield and fibre quality; 3.1.3 Effect of elevated temperature; Photosynthesis and respiration; Stomatal conductance and transpiration; Phenology; Growth, yield and fibre quality; 3.1.4. Effect of vapour pressure deficit; 3.1.5. Effect of drought; Photosynthesis and respiration; 26
Plants are important source of lead molecules for drug discovery. These lead molecules serve as starting materials for laboratory synthesis of drug as well a model for production of biologically active compounds. Phytochemical processing of raw plant materials is essentially required to optimize the concentration of known constituents and also to maintain their activities. Extraction techniques and analytical techniques have played critical roles in phytochemical processing of raw materials. Extraction technologies from conventional extraction to green extraction as well as analytical techniques from single technique to hyphenated/coupled techniques most frequently used in phytochemistry laboratories are covered in the book.
Photosynthesis and respirationStomatal conductance and transpiration; Phenology; Growth, yield and fibre quality; 3.1.3 Effect of elevated temperature; Photosynthesis and respiration; Stomatal conductance and transpiration; Phenology; Growth, yield and fibre quality; 3.1.4. Effect of vapour pressure deficit; 3.1.5. Effect of drought; Photosynthesis and respiration; 26
Plants are important source of lead molecules for drug discovery. These lead molecules serve as starting materials for laboratory synthesis of drug as well a model for production of biologically active compounds. Phytochemical processing of raw plant materials is essentially required to optimize the concentration of known constituents and also to maintain their activities. Extraction techniques and analytical techniques have played critical roles in phytochemical processing of raw materials. Extraction technologies from conventional extraction to green extraction as well as analytical techniques from single technique to hyphenated/coupled techniques most frequently used in phytochemistry laboratories are covered in the book.
