Evaluation and prediction of water conservation of the Yellow river basin in Sichuan Province, China, based on Google Earth Engine and CA-Markov.

The Yellow River Basin in China has the world's most serious soil erosion problem. The Yellow River Basin in Sichuan Province (YRS), as the upper reaches of the Yellow River, and its water conservation (WC) capacity greatly affects the ecological environment of the downstream basin. In recent years, YRS has received more and more attention, and numerous policies have been developed to improve local WC. However, there is a vacancy in the long-term research of WC in the YRS due to the lack of in-situ data. This study quantitatively evaluated the WC of YRS from 2001 to 2020 through Google Earth Engine (GEE) and analyzed the spatio-temporal variations of WC and land cover (LC). CA-Markov predicted the LC and WC in 2025 under three scenarios to assess the contribution of different scenarios to WC. The WC in YRS fluctuated from 1.93 to 6.77 billion m3. The climate is the dominant factor of WC change, but the effect of LC on WC is also evident. The WC capacity increases with vegetation coverage and height. The WC capacity of forests per km2 exceeds 600 mm, while that of grasslands is about 250 mm, and barren can cause around 300 mm of WC loss. In 2025, the WC in YRS may exceed 7.5 billion m3, but the past ecological management mode should be transformed. Improving the quality of land use and converting grasslands to forests is better than reducing cropland to improve WC.

Convenient synthesis of porous carbon nanospheres with tunable pore structure and excellent adsorption capacity.

A novel adsorbent, porous carbon nanosphere (PCNS), was conveniently prepared by the chemical activation of hydrothermally synthesized carbon nanosphere (CNS) with ZnCl2. The obtained PCNS materials were characterized by X-ray diffraction, Fourier transform infrared spectroscopy, N2 sorption technology and transmission electron microscope, and the results indicated that these materials possessed superior porosity with high surface area and large pore volume, in the meantime maintaining the nanospherical morphologies. Moreover, the porous structure of PCNS can be tuned from micropores to mesopores by adjusting the mass ratio of ZnCl2/CNS and the activation temperature. The porous structure endued PCNS excellent performance for the adsorption of bulky dyes from aqueous solution. Detailed adsorption behaviors of the optimized PCNS material, including adsorption isotherms and adsorption kinetics, were investigated. The experimental data of equilibrium adsorption capacity well matched Langmuir isotherms, and the maximum adsorption amounts of methylene blue, malachite green and rhodamine B were calculated as 3152, 1455 and 1409 mg g(-1), respectively, which were much higher than those of activated carbon and mesoporous carbon. The kinetic data were fitted to the models of pseudo-first-order and pseudo-second-order, which followed more closely the pseudo-second-order chemisorptions model. In addition, PCNS exhibited a good reusable property after five consecutive cycles.

Francisella guangzhouensis sp. nov., isolated from air-conditioning systems.

Four strains (08HL01032(T), 09HG994, 10HP82-6 and 10HL1960) were isolated from water of air-conditioning systems of various cooling towers in Guangzhou city, China. Cells were Gram-stain-negative coccobacilli without flagella, catalase-positive and oxidase-negative, showing no reduction of nitrate, no hydrolysis of urea and no production of H2S. Growth was characteristically enhanced in the presence of l-cysteine, which was consistent with the properties of members of the genus Francisella. The quinone system was composed of ubiquinone Q-8 with minor amounts of Q-9. The polar lipid profile consisted of the predominant lipids phosphatidylethanolamine, diphosphatidylglycerol, phosphatidylglycerol, phosphatidylcholine, two unidentified phospholipids (PL2, PL3), an unidentified aminophospholipid and an unidentified glycolipid (GL2). The polyamine pattern consisted of the major compounds spermidine, cadaverine and spermine. The major cellular fatty acids were C10 : 0, C14 : 0, C16 : 0, C18 : 1ω9c and C18 : 1 3-OH. A draft whole-genome sequence of the proposed type strain 08HL01032(T) was generated. Comparative sequence analysis of the complete 16S and 23S rRNA genes confirmed affiliation to the genus Francisella, with 95 % sequence identity to the closest relatives in the database, the type strains of Francisella philomiragia and Francisella noatunensis subsp. orientalis. Full-length deduced amino acid sequences of various housekeeping genes, recA, gyrB, groEL, dnaK, rpoA, rpoB, rpoD, rpoH, fopA and sdhA, exhibited similarities of 67-92 % to strains of other species of the genus Francisella. Strains 08HL01032(T), 09HG994, 10HP82-6 and 10HL1960 exhibited highly similar pan-genome PCR profiles. Both the phenotypic and molecular data support the conclusion that the four strains belong to the genus Francisella but exhibit considerable divergence from all recognized Francisella species. Therefore, we propose the name Francisella guangzhouensis sp. nov., with the type strain 08HL01032(T) ( = CCUG 60119(T) = NCTC 13503(T)).