[Relationships of wetland landscape fragmentation with climate change in middle reaches of Heihe River, China].

Based on the 1975-2010 multi-temporal remotely sensed TM and ETM images and meteorological data, in combining with wavelet analysis, trend surface simulation, and interpolation method, this paper analyzed the meteorological elements' spatial distribution and change characteristics in the middle reaches of Heihe River, and elucidated the process of wetland landscape fragmentation in the study area by using the landscape indices patch density (PD), mean patch size (MPS), and patch shape fragment index (FS). The relationships between the wetland landscape fragmentation and climate change were also approached through correlation analysis and multiple stepwise regression analysis. In 1975-2010, the overall distribution patterns of precipitation and temperature in the study area were low precipitation in high temperature regions and high precipitation in low temperature regions, and the main characteristics of climate change were the conversion from dry to wet and from cold to warm. In the whole study period, the wetland landscape fragmentation was mainly manifested in the decrease of MPS, with a decrement of 48.95 hm2, and the increase of PD, with an increment of 0.006 ind x hm(-2).

Protein recognition onto silica particles using chitosan as intermedium substrate.

A novel molecular imprinting method was used to prepare twice-coated silica particles with specific recognition sites for hemoglobin. Chitosan was used as an intermedium to be coated on silica particles via phase inversion process, and the abundance of exposed amine groups (NH2) were active sites for introducing aldehyde groups. After hemoglobin was covalently immobilized by forming imine bonds with the aldehyde groups, acrylamide was then polymerized onto chitosan-coated silica particles to form the recognition sites. The obtained hemoglobin imprinted [molecularly imprinted polymer (MIP)] beads were characterized by FTIR spectroscopy, thermogravimetric analysis (TG), and scanning electron microscopy (SEM). The MIP particles exhibited selectively adsorption for the imprinted protein compared to the nonselectively adsorption for most of proteins of the nonimprinted (NIP) beads.

A novel solid phase for selective separation of flavonoid compounds.

A novel straightforward approach to selective separation for flavonoid compounds was reported. The solid phase material was prepared by copolymerization using allyl-bromide-modified chitosan as macromonomer, and ethylene glycol dimethacrylate as cross-linker. The material was evaluated by chromatographic analysis; it exhibited high selectivity separation for quercetin and its structural analogues using different mobile phases. The material could directly trap a specific class of compounds including quercetin and kaempferol from the hydrolyzate of Ginkgo biloba extract. These results demonstrated the possibility of direct extraction of certain constituents from herb using this material.