A pot experiment has been conducted in Faculty of Agricultural and Forestry, Lath House of Horticultural Department, School of Plant Production, Duhok University during the growing season 2010-2011. The study consiste...A pot experiment has been conducted in Faculty of Agricultural and Forestry, Lath House of Horticultural Department, School of Plant Production, Duhok University during the growing season 2010-2011. The study consisted of testing the effects of four different growth media (Clay, Loam, Clay + sheep manure (1:1) and Loam + sheep manure (1:1) as volumetric rates on vegetative and flowering growth characters of five different cultivars of Hyacinths plant (Blue Giant, City of Haarlem, Jon Bos, Delf Blue and Fondante). The experiment was laid out in randomized complete block design (RCBD) of two factors in three replicates. Media mostly affected the parameters studied during the experiment. Early emergence (22.53 days) and flowering (73.13 days) was recorded in medium consisting of loam and sheep manure, while maximum plant height (19.75 cm), leaves number (6.13), leaf area (31.47 cm2) were recorded in clay medium. Maximum number of florets plant-l (31.93) and spike length (7.95 cm) were recorded in medium consist of clay and sheep manure. Maximum length of spike stem (9.61 cm) and total chlorophyll percentage (53.45%) were recorded for loam medium. Among the cultivars, some parameters showed significant variation. Early emergence (20.42 days), maximum plant height (20.35 cm), leaf area per plant (33.01 cm2) and length of spike stem (15.10 cm) were given by cv. Fondante. Maximum number of florets plantl (35.58) and spike lengths (8.63 cm) were recorded by cv. Blue Giant. High percentage of total chlorophyll (58.15%) was recorded in cv. Jon Bos..展开更多
The importance and the necessary of researches on renewable energy have become a hot topic in recent years due to climate change and global warming. In addition, the fossil fuel reserves is facing rapid depletion on t...The importance and the necessary of researches on renewable energy have become a hot topic in recent years due to climate change and global warming. In addition, the fossil fuel reserves is facing rapid depletion on the earth. Currently, most researches have concentrated on producing biogas for heating, lighting, drying, cooking but lack in researching on electricity production because the possibility of producing biogas at households are common at small scale. Studying on alternative energy sources to replace traditional fuel for electric power generation brings new chances and great opportunities for development. This study presents an assessment electric power generation via water hyacinths and agricultural waste. In this paper, the evaluation electric power is generated by operating internal combustion engines which use biogas fuel to replace traditional fuel (diesel, gasoline). The results of the studies were demonstrated by experiments on the renewable energy production system at Hoa An Biotechnology Research and Experimental Center of Cantho University.展开更多
The spectroscopy characteristics and the fluorescence lifetime for the chloroplasts isolated from the pseudo ginseng, water hyacinth and spinach plant leaves have been studied by absorption spectra, low temperature st...The spectroscopy characteristics and the fluorescence lifetime for the chloroplasts isolated from the pseudo ginseng, water hyacinth and spinach plant leaves have been studied by absorption spectra, low temperature steady-state fluorescence spectroscopy and single photon counting measurement under the same conditions and by the same methods. The similarity of the absorption spectra for the chloroplasts at room temperature suggests that different plants can efficiently absorb light of the same wavelength. The fluorescence decays in PS II measured at the natural QA state for the chloroplasts have been fitted by a three-exponential kinetic model. The three fluorescence lifetimes are 30, 274 and 805 ps for the pseudo ginseng chloroplast; 138, 521 and 1494 ps for the water hyacinth chloroplast; 197, 465 and 1459 ps for the spinach chloroplast, respectively. The slow lifetime fluorescence component is assigned to a collection of associated light harvesting Chl a/b proteins, the fast lifetime component to the reaction center of PS II and the middle lifetime component to the delay fluorescence of recombination of P+ 680 and Pheo-. The excitation energy conversion efficiency(η) in PS II RC is defined and calculated on the basis of the 20 ps electron transfer time constant model, 60%, 87% and 91% for the pseudo ginseng, water hyacinth and spinach chloroplasts, respectively. This interesting result is in unconformity with what is assumed to be 100% efficiency in PS II RC. Our result in this work stands in line with the 20 ps electron transfer time constant in PS II rather sound and the water hyacinth plant grows slower than the spinach plant does as envisaged on the efficiency. But, our results predict that those plants can perform highly efficient transfer of photo-excitation energy from the light-harvesting pigment system to the reaction center (closely to 100%). The conclusion contained in this paper reveals the plant growth characteristics expressed in the primary processes of photosynthesis and a relationship between a plant growing rate and its spectroscopy characteristics and fluorescence lifetimes, namely, the slower a plant grows, the less excitation energy conversation efficiency used might be anticipated.展开更多
文摘A pot experiment has been conducted in Faculty of Agricultural and Forestry, Lath House of Horticultural Department, School of Plant Production, Duhok University during the growing season 2010-2011. The study consisted of testing the effects of four different growth media (Clay, Loam, Clay + sheep manure (1:1) and Loam + sheep manure (1:1) as volumetric rates on vegetative and flowering growth characters of five different cultivars of Hyacinths plant (Blue Giant, City of Haarlem, Jon Bos, Delf Blue and Fondante). The experiment was laid out in randomized complete block design (RCBD) of two factors in three replicates. Media mostly affected the parameters studied during the experiment. Early emergence (22.53 days) and flowering (73.13 days) was recorded in medium consisting of loam and sheep manure, while maximum plant height (19.75 cm), leaves number (6.13), leaf area (31.47 cm2) were recorded in clay medium. Maximum number of florets plant-l (31.93) and spike length (7.95 cm) were recorded in medium consist of clay and sheep manure. Maximum length of spike stem (9.61 cm) and total chlorophyll percentage (53.45%) were recorded for loam medium. Among the cultivars, some parameters showed significant variation. Early emergence (20.42 days), maximum plant height (20.35 cm), leaf area per plant (33.01 cm2) and length of spike stem (15.10 cm) were given by cv. Fondante. Maximum number of florets plantl (35.58) and spike lengths (8.63 cm) were recorded by cv. Blue Giant. High percentage of total chlorophyll (58.15%) was recorded in cv. Jon Bos..
文摘The importance and the necessary of researches on renewable energy have become a hot topic in recent years due to climate change and global warming. In addition, the fossil fuel reserves is facing rapid depletion on the earth. Currently, most researches have concentrated on producing biogas for heating, lighting, drying, cooking but lack in researching on electricity production because the possibility of producing biogas at households are common at small scale. Studying on alternative energy sources to replace traditional fuel for electric power generation brings new chances and great opportunities for development. This study presents an assessment electric power generation via water hyacinths and agricultural waste. In this paper, the evaluation electric power is generated by operating internal combustion engines which use biogas fuel to replace traditional fuel (diesel, gasoline). The results of the studies were demonstrated by experiments on the renewable energy production system at Hoa An Biotechnology Research and Experimental Center of Cantho University.
基金Acknowledgements The authors thank Prof. Xia Zongju in Peking University and Prof. Peng Hangcheng in the Institute of Biophysics of Chinese Academy of Sciences for their help in carrying out the single photon counting experiment, and Dr. Lin Su in Photos
文摘The spectroscopy characteristics and the fluorescence lifetime for the chloroplasts isolated from the pseudo ginseng, water hyacinth and spinach plant leaves have been studied by absorption spectra, low temperature steady-state fluorescence spectroscopy and single photon counting measurement under the same conditions and by the same methods. The similarity of the absorption spectra for the chloroplasts at room temperature suggests that different plants can efficiently absorb light of the same wavelength. The fluorescence decays in PS II measured at the natural QA state for the chloroplasts have been fitted by a three-exponential kinetic model. The three fluorescence lifetimes are 30, 274 and 805 ps for the pseudo ginseng chloroplast; 138, 521 and 1494 ps for the water hyacinth chloroplast; 197, 465 and 1459 ps for the spinach chloroplast, respectively. The slow lifetime fluorescence component is assigned to a collection of associated light harvesting Chl a/b proteins, the fast lifetime component to the reaction center of PS II and the middle lifetime component to the delay fluorescence of recombination of P+ 680 and Pheo-. The excitation energy conversion efficiency(η) in PS II RC is defined and calculated on the basis of the 20 ps electron transfer time constant model, 60%, 87% and 91% for the pseudo ginseng, water hyacinth and spinach chloroplasts, respectively. This interesting result is in unconformity with what is assumed to be 100% efficiency in PS II RC. Our result in this work stands in line with the 20 ps electron transfer time constant in PS II rather sound and the water hyacinth plant grows slower than the spinach plant does as envisaged on the efficiency. But, our results predict that those plants can perform highly efficient transfer of photo-excitation energy from the light-harvesting pigment system to the reaction center (closely to 100%). The conclusion contained in this paper reveals the plant growth characteristics expressed in the primary processes of photosynthesis and a relationship between a plant growing rate and its spectroscopy characteristics and fluorescence lifetimes, namely, the slower a plant grows, the less excitation energy conversation efficiency used might be anticipated.
