《应用生态学报》2016年影响因子和总被引频次

据中国科学技术信息研究所发布的《2017年版·中国科技期刊引证报告（核心版）》,《应用生态学报》2016年影响因子为1．967,在生态学类期刊中排名第2位;总被引频次为12948,在生态学类期刊中排名第2位．感谢各位读者、作者和专家的支持!     

玉米地膜制种促熟增产的生理学机理

系统地探讨了玉米地膜制种促熟增产的作物生理学机理．结果表明,玉米池膜制种可以改善土壤水温条件、增强植株根系活力和群体光合作用性能、促进植株生长发育和光合产物的积累与分配．为该技术应用提供了科学依据．     

生物降解地膜应用与地膜残留污染防控

地膜是农业生产中重要的生产资料之一,过去30多年,地膜用量和农作物覆膜面积一直稳定增长,2014年地膜用量达到了144万t,覆膜面积超过1 800万hm~2,该技术对保障我国农产品安全供给作出了重大贡献。与此同时,地膜残留污染问题越来越严重,一些农田的地膜残留量超过250 kg/hm~2,在我国西北的局部区域,地膜残留已经对农田土壤、作物生长发育、农事作业等造成严重影响和危害。生物降解地膜成为替代普通PE地膜、解决地膜残留污染的一种有效措施和手段,目前生物降解地膜正处于产品研发和评价试验的关键阶段,部分生物降解地膜产品在马铃薯、花生、烟草生产上显示出良好的效果,但总体上还面临巨大挑战,主要包括需要进一步提高地膜产品质量,提高地膜产品破裂和降解可控性,改善地膜的增温保墒能力,实现满足农作物对地膜覆盖功能的要求;此外,需要降低生物降解地膜综合成本,促进生物降解地膜规模化应用。总体上,随着技术进步和农业生产环境的变化,生物降解地膜应用将具有良好的前景。     

Lunar influence on prey availability,diet shifts and niche overlap between Engraulidae larvae in tropical mangrove creeks

The influence of the lunar cycle on prey availability, diet shifts and overlap between larval Anchovia clupeoides and Cetengraulis edentulus was evaluated in mangrove creeks of the Goiana Estuary. Copepod eggs were highly abundant in the first and last quarter, at the full moon and zoea of Ucides cordatus (Ocypodidae) in the new moon. The Engraulidae larvae fed on microcrustaceans, algae and early planktonic stages of benthic organisms. The relative importance of prey varied according to prey availability in all moon phases. Larval diets were more even in the full and new moons, when the relative importance of calanoid copepods and zoeae of U. cordatus as food items increased (index of relative importance, >80% I_RI). Mangrove creeks were very important feeding grounds for engraulid larvae during spring tides. Larval diets were more diverse in the first and last‐quarter moon and included protozoeae of Caridean shrimp, larvae of Anomalocardia brasiliana (Veneridae), Isopoda, Gastropoda, ephippium of Daphnia sp. and nauplii of Cirripedia, Harpacticoidia and cyclopoid Copepoda. The last five items were not found in the creeks, suggesting feeding in the main channel. During neap tides, mangrove creeks were probably also used as refugia. These larvae are opportunistic and feed on highly available prey and both species feed on the same items, leading to high dietary overlap in all moon phases. The lunar cycle, which is related to the spring‐neap tidal cycle, was the major driver of quantitative and qualitative changes in feeding of engraulid larvae on a short time scale.     

Improved Performance of Ternary Polymer Solar Cells Based on A Nonfullerene Electron Cascade Acceptor

Efficient ternary polymer solar cells are constructed by incorporating an electron‐deficient chromophore (5Z,5′Z)‐5,5′‐((7,7′‐(4,4,9,9‐tetrakis(4‐hexylphenyl)‐4,9‐dihydro‐s‐indaceno[1,2‐b:5,6‐b′]dithiophene‐2,7‐diyl)bis(6‐fluorobenzo[c][1,2,5]thiadiazole‐7,4‐diyl))bis(methanylylidene))bis(3‐ethyl‐2‐thioxothiazolidin‐4‐one) (IFBR) as an additional component into the bulk‐heterojunction film that consists of a wide‐bandgap conjugated benzodithiophene‐alt‐difluorobenzo[1,2,3]triazole based copolymer and a fullerene acceptor. With respect to the binary blend films, the incorporation of a certain amount of IFBR leads to simultaneously enhanced absorption coefficient, obviously extended absorption band, and improved open‐circuit voltage. Of particular interest is that devices based on ternary blend film exhibit much higher short‐circuit current densities than the binary counterparts, which can be attributed to the extended absorption profiles, enhanced absorption coefficient, favorable film morphology, as well as formation of cascade energy level alignment that is favorable for charge transfer. Further investigation indicates that the ternary blend device exhibits much shorter charge carrier extraction time, obviously reduced trap density and suppressed trap‐assisted recombination, which is favorable for achieving high short‐circuit current. The combination of these beneficial aspects leads to a significantly improved power conversion efficiency of 8.11% for the ternary device, which is much higher than those obtained from the binary counterparts. These findings demonstrate that IFBR can be a promising electron‐accepting material for the construction of ternary blend films toward high‐performance polymer solar cells.     

Mixed Phase Solid‐State Plastic Crystal Electrolytes Based on a Phosphonium Cation for Sodium Devices

Na batteries are seen as a feasible alternative technology to lithium ion batteries due to the greater abundance of sodium and potentially similar electrochemical behavior. In this work, mixed phase electrolyte materials based on solid‐state compositions of a tri methylisobutylphosphonium (P_111i4) bis(tri fluromethanesulphonyl)amide (NTf₂) organic ionic plastic crystal (OIPC) and high concentration of NaNTf₂ that support safe, sodium metal electrochemistry are demonstrated. A Na symmetric cell can be cycled efficiently, even in the solid state (at 50 °C and 60 °C), for a 25 mol% (P_111i4NTf₂)–75 mol% NaNTf₂ composition at 0.1 mA cm^?2 for 100 cycles. Thus, these mixed phase materials can be potentially used in Na‐based devices under moderate temperature conditions. It is also investigated that the phase behavior, conductivity, and electrochemical properties of mixtures of NaNTf₂ with this OIPC. It is observed that these mixtures have complex phase behavior. For high compositions of the Na salt, the materials are solid at room temperature and retain a soft solid consistency even at 50 °C with remarkably high conductivity, approaching that of the pure ionic liquid at 50 °C, i.e., 10^?3–10^?2 S cm^?1.     

Subtilisin Carlsberg in complex with sodium dodecyl sulfate is an effective catalyst for the solid phase segment coupling of peptides on polyvinyl alcohol cryogel

Subtilisin Carlsberg (SC) was shown to catalyze the solid phase segment coupling of peptides in complex with sodium dodecyl sulfate (SDS) in an organic medium on Aminosilochrom and polyvinyl alcohol (PVA) cryogel activated with glutaraldehyde or divinylsulfone. Diamines of different lengths with a general formula NH₂-(CH₂) _n -NH₂ (n = 2, 4, and 6) were used as spacers between the PVA cryogel and the peptide. A model reaction of enzymatic attachment of the Dnp-Ala-Ala-Leu-OMe tripeptide to the PVA cryogel was carried out by treatment with the SDS-SC complex in a mixture of anhydrous ethanol and DMSO (7 : 3, v/v) using a tenfold excess of the carboxyl component. The molar enzyme-substrate ratio was 1 : 88. The effect of the method of matrix activation, length of a spacer, and reaction time on the coupling efficiency was studied. Hexamethylenediamine was found to be the most effective spacer for the enzymatic coupling on the PVA cryogel activated with glutaraldehyde (the reaction proceeded with the highest yield of 60%). The reaction efficiency was considerably lower in the case of ethylenediamine and tetramethylenediamine (10 and 15%, respectively). The best results were obtained on the PVA cryogel activated by divinylsulfone with hexamethylenediamine as a spacer. A two-step condensation of tripeptides was carried out on this support. The second step of condensation was shown to proceed better (in 85% yield) in comparison with the first step (37% yield).     

Regeneration in medicine: A plastic surgeons “tail” of disease,stem cells,and a possible future

Regeneration in medicine is a concept that has roots dating back to the earliest known records of medical interventions. Unfortunately, its elusive promise has still yet to become a reality. In the field of plastic surgery, we use the common tools of the surgeon grounded in basic operative principles to achieve the present day equivalent of regenerative medicine. These reconstructive efforts involve a broad range of clinical deformities, both congenital and acquired. Outlined in this review are comments on clinical conditions and the current limitations to reconstruct these clinical entities in the effort to practice regenerative medicine. Cleft lip, microtia, breast reconstruction, and burn reconstruction have been selected as examples to demonstrate the incredible spectrum and diverse challenges that plastic surgeons attempt to reconstruct. However, on a molecular level, these vastly different clinical scenarios can be unified with basic understanding of development, alloplastic integration, wound healing, cell–cell, and cell‐matrix interactions. The themes of current and future molecular efforts involve coalescing approaches to recapitulate normal development in clinical scenarios when reconstruction is needed. It will be a better understanding of stem cells, scaffolding, and signaling with extracellular matrix interactions that will make this future possible. Eventually, reconstructive challenge will utilize more than the current instruments of surgical steel but engage complex interventions at the molecular level to sculpt true regeneration. Immense amounts of research are still needed but there is promise in the exploding fields of tissue engineering and stem cell biology that hint at great opportunities to improve the lives of our patients. Birth Defects Research (Part C) 84:322–334, 2008. © 2008 Wiley‐Liss, Inc.     

旱地小麦施氮和地膜栽培的氮素效应与淋溶

在陕西长武旱塬进行的试验表明,小麦施用氮肥增产显著。在小麦生育前期持续干旱条件下,地膜覆盖并没有使小麦表现出较好的增产效果。施用氮肥或氮肥与有机肥配施都可能引起NO3^-向深层淋溶,而且氮肥用量越大,淋溶量及深度愈大;施用有机肥NO3^-累积现象减弱。小麦对硝态氮主要吸收深度范围为0～80cm;不同施肥处理对土壤剖面NH4^ 的影响不大。施用氮肥会明显增加小麦吸氮量,但氮肥利用率随其用量增加而降低。试验条件下,低(施氮量为100kg／hm^2)、高(施氮量为150kg／hm^2)两种氮肥用量时的氮肥利用率分别为52％和27％,有机肥氮的利用率为12％。     

Purification of aquarium water by PVA gel-immobilized photosynthetic bacteria during goldfish rearing

This study was conducted to evaluate the ability of a PVA-gel beads filtration (PVA) system using photosynthetic bacteria to purify water. To accomplish this, duplicate long-term goldfish rearing experiments were conducted using four different types of aquarium systems (COF, PSB, EMC, and PVA). The results revealed that the concentrations of NH₄ ⁺-N on the day of a goldfish’s death were significantly higher than the concentrations on other days for all the aquarium systems. In addition, the mean concentration of NH₄ ⁺-N during goldfish rearing occurred in the following order: COF system > EMC system > PSB system > PVA system. Furthermore, the mean values of all other ion concentrations (NO₃ ⁻-N, NO₂ ⁻-N, and PO₄ ²⁻-P) were found to be lowest in the PVA system. As a result, there was more prominent decomposition of organic matter in the aquarium tank containing the PVA system, as well as less turbid aquarium water and more active goldfish. Additionally, the PVA-gel beads resulted in almost complete denitrification, even after six-months of goldfish rearing. To our knowledge, this is the first study to report that PVA gel-immobilized photosynthetic bacteria have the ability to purify water. Overall, the results of this study indicate that this immobilized photosynthetic bacteria system has the potential for use as a component in circulating filtration systems.