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101.
长江经济带是重大国家战略发展区域,优化其国土空间开发保护格局是实现生态文明建设的重要内容。研究基于“核心点-发展轴-战略区”的框架,通过国土空间利用强度表征指标及夜间灯光数据识别发展核心点,借助有序加权平均算法模拟多种决策愿景下的空间发展阻力面,运用最小累积阻力模型和电路理论模型识别空间发展轴线及其内部的开发保护战略区,定量构建不同决策偏好的空间格局优化方案,突破了传统研究中单一目标和定性分析的局限。结果表明:长江经济带国土空间发展核心点共63个,约占区域总面积的5%,呈现自东向西递减的空间分布特征;城镇扩张、协同发展和生态约束三类情景下发展轴线均为61条,所覆盖的县级单元分别占总数的36.6%、36.5和36.7%,呈现出“一横三纵”的格局特征;城镇扩张、协同发展和生态约束三类情景下开发战略区分别占轴线面积的4.5%、4.9%、4.8%,多分布于长江干流及其支流沿线。保护战略区分别占轴线面积的17.1%、13.9%、15.3%,主要分布于长江南岸区域。在此基础上形成的国土空间开发保护格局基础架构,能够为落实长江经济带“共抓大保护、不搞大开发”提供决策参考。 相似文献
102.
103.
DORIS M. KERMACK F.L.S. 《Zoological Journal of the Linnean Society》1989,95(2):101-102
The morphology of abdominal and alar androconial organs of four species representing four genera of danaine butterflies is described in detail, based mainly on scanning electron microscopy. The findings are discussed with respect to functional significance and phyletic development of the organs. 相似文献
104.
The role of breast FNAC in diagnosis and clinical management: a survey of current practice 总被引:1,自引:0,他引:1
105.
106.
Freija Hauquier Laura Ballesteros‐Redondo Julian Gutt Ann Vanreusel 《Ecology and evolution》2016,6(1):305-317
Free‐living marine nematode communities of the Larsen B embayment at the eastern Antarctic Peninsula were investigated to provide insights on their response and colonization rate after large‐scale ice‐shelf collapse. This study compares published data on the post‐collapse situation from 2007 with new material from 2011, focusing on two locations in the embayment that showed highly divergent communities in 2007 and that are characterized by a difference in timing of ice‐shelf breakup. Data from 2007 exposed a more diverse community at outer station B.South, dominated by the genus Microlaimus. On the contrary, station B.West in the inner part of Larsen B was poor in both numbers of individuals and genera, with dominance of a single Halomonhystera species. Re‐assessment of the situation in 2011 showed that communities at both stations diverged even more, due to a drastic increase in Halomonhystera at B.West compared to relatively little change at B.South. On a broader geographical scale, it seems that B.South gradually starts resembling other Antarctic shelf communities, although the absence of the genus Sabatieria and the high abundance of Microlaimus still set it apart nine years after the main Larsen B collapse. In contrast, thriving of Halomonhystera at B.West further separates its community from other Antarctic shelf areas. 相似文献
107.
Okhotsk Sea pack ice from Shiretoko in northern Hokkaido, sampled in March 2007, contained microalgal communities dominated
by the centric diatoms Thalassiosira
nordenskioeldi and T. punctigera. Domination by this genus is very unusual in sea ice. Communities from nearby fast ice at Saroma-ko lagoon were dominated by Detonula conferavea and Odontella aurita. Average microalgal biomass of the Okhotsk Sea pack ice (surface and bottom) was 1.59 ± 1.09 μg chla l−1 and for fast ice (bottom only) at nearby Saroma-ko lagoon, 16.5 ± 3.2 μg l−1 (=31.1 ± 5.0 mg chla m−2). Maximum quantum yield of the Shiretoko pack ice algal communities was 0.618 ± 0.056 with species-specific data ranging
between 0.211 and 0.653. These community values are amongst the highest recorded for sea ice algae. Rapid light curves (RLC) on individual cells indicated maximum relative electron transfer rates (relETR) between 20.8 and
60.6, photosynthetic efficiency values (α) between 0.31 and 0.93 and onset of saturation values (E
k) between 33 and 91 μmol photons m−2 s−1. These data imply that the pack ice algal community at Shiretoko was healthy and actively photosynthesising. Maximum quantum
yield of the Saroma-ko fast ice community was 0.401 ± 0.086, with values for different species between 0.361 and 0.560. RLC
data from individual Saroma-ko fast ice algal cells indicated relETR between 55.3 and 60.6, α values between 0.609 and 0.816
and E
k values between 74 and 91 μmol photons m−2 s−1 which are consistent with measurements in previous years. 相似文献
108.
The 26S proteasome is a multi‐catalytic ATP‐dependent protease complex that recognizes and cleaves damaged or misfolded proteins to maintain cellular homeostasis. The 26S subunit consists of 20S core and 19S regulatory particles. 20S core particle consists of a stack of heptameric alpha and beta subunits. To elucidate the structure‐function relationship, we have dissected protein‐protein interfaces of 20S core particle and analyzed structural and physiochemical properties of intra‐alpha, intra‐beta, inter‐beta, and alpha‐beta interfaces. Furthermore, we have studied the evolutionary conservation of 20S core particle. We find the size of intra‐alpha interfaces is significantly larger and is more hydrophobic compared with other interfaces. Inter‐beta interfaces are well packed, more polar, and have higher salt‐bridge density than other interfaces. In proteasome assembly, residues in beta subunits are better conserved than alpha subunits, while multi‐interface residues are the most conserved. Among all the residues at the interfaces of both alpha and beta subunits, Gly is highly conserved. The largest size of intra‐alpha interfaces complies with the hypothesis that large interfaces form first during the 20S assembly. The tight packing of inter‐beta interfaces makes the core particle impenetrable from outer wall of the cylinder. Comparing the three domains, eukaryotes have large and well‐packed interfaces followed by archaea and bacteria. Our findings provide a structural basis of assembly of 20S core particle in all the three domains of life. 相似文献
109.
Karen van Zee Dawn A. Baertlein Steve E. Lindow Nicholas Panopoulos Tony H. H. Chen 《Plant molecular biology》1996,30(1):207-211
The bacterial ice nucleation gene inaZ confers production of ice nuclei when transferred into transgenic plants. Conditioning of the transformed plant tissue at temperatures near 0°C greatly increased the ice nucleation activity in plants, and maximum ice nucleation activity was achieved only after low-temperature conditioning for about 48 h. Although the transgenic plants contain similar amounts of inaZ mRNA at both normal and low temperatures, low temperatures are required for accumulation of INAZ protein. We propose that the stability of the INAZ protein and thus ice nucleation activity in the transgenic plants is enhanced by low-temperature conditioning. 相似文献