Blue Energy Collection toward All‐Hours Self‐Powered Chemical Energy Conversion

The conversion and transmission of blue energy in the ocean are critical issues. By employing triboelectric nanogenerators (TENGs), blue energy can be harvested but the corresponding electricity transmission and storage are still great challenges. In this work, an automatic high‐efficiency self‐powered energy collection and conversion system is proposed that converts blue energy to chemical energy. A gear‐driven unidirectional acceleration TENG is designed to convert disordered and low‐frequency water wave energy to low voltage and high current DC output. The output bias from the TENG can be used to drive a Ti–Fe₂O₃/FeNiOOH based photoelectrochemical cell under sunlight to produce hydrogen. Moreover, under the situation without sunlight, the self‐powered system can be automatically switched to another working state to charge a Co₃O₄ based lithium‐ion battery. The hydrogen production rate reaches to 4.65 µL min^‐1 under sunlight at the rotation speed of 120 rpm. The conversion efficiency of the whole system is calculated to be 2.29%. The system triggered by photoswitches can automatically switch between two working states with or without sunlight and convert the blue energy to either hydrogen energy or battery energy for easy storage and transmission, which widens the future applications for blue energy.     

Achieving 17.4% Efficiency of Ternary Organic Photovoltaics with Two Well‐Compatible Nonfullerene Acceptors for Minimizing Energy Loss

A power conversion efficiency (PCE) of 16.2% is achieved in PM6:BTP‐4F‐12 based organic photovoltaics (OPVs). On the basis of efficient binary OPVs, a series of ternary OPVs are constructed by incorporating MeIC as the third component. The open circuit voltages (V_OCs) of ternary OPVs can be gradually increased along with the incorporation of MeIC, suggesting the formation of an alloy state between BTP‐4F‐12 and MeIC with good compatibility. The energy loss (E_loss) of ternary OPVs can be decreased compared with that of two binary OPVs, contributing to the V_OC improvement of ternary OPVs. The short circuit current density (J_SC) and fill factor (FF) of ternary OPVs can also be simultaneously enhanced with MeIC content up to 10 wt% in acceptors, leading to 17.4% PCE of the optimized ternary OPVs. The J_SC and FF improvement of ternary OPVs is thought to result from the optimized ternary active layers with more efficient photon harvesting, exciton dissociation and charge transport. The 17.4% PCE and 79.2% FF is among the top values of ternary OPVs. This work indicates that a ternary strategy is an emerging method to simultaneously minimize E_loss and optimize photon harvesting as well as improve the morphology of active layers for realizing performance improvement for OPVs.     

Cut‐and‐chip harvester material capacity and fuel performance on commercial‐scale willow fields for varying ground and crop conditions

Shrub willow (Salix spp.) is capable of producing commercially attractive amounts of biomass in short rotations, but harvesting costs and logistics remain a concern. There is a particular need for information about harvesting operations on larger, commercial short‐rotation woody crop systems. Another recent issue on commercial fields in northern New York is commercial growers conducting harvests during the growing season rather than the recommended dormant season when fields may be too wet to harvest. This study evaluated and modeled the in‐field performance of a cut‐and‐chip harvester for almost 700 wagonloads of chips operating in commercial willow fields in a wider array of crop and field conditions than have been previously reported. Analysis indicated that the time of harvest (leaf‐on or leaf‐off) and whether site conditions were wet or dry affected the harvester's material capacity. Mean material capacity was greatest for leaf‐off, dry conditions (71.8 Mg/hr) and lowest for leaf‐on harvests, which were similar for wet (30.4 Mg/hr) and dry conditions (29.7 Mg/hr). Mean crop specific fuel consumption ranged between 1.3 and 3.3 L/Mg, but can get considerably higher for standing biomasses below 40 Mg/ha. Wet ground conditions and leaf‐on harvests tend to decrease material capacity and increase fuel consumption as the harvester has to divert power to forward movement and material processing. Relationships for material capacity and fuel consumption based on standing biomass, time of harvest and ground conditions will be essential for evaluating and modeling the economic and environmental impacts of commercial‐scale willow operations.     

Possible combined effects of climate change,deforestation, and harvesting on the epiphyte Catopsis compacta: a multidisciplinary approach

Climate change, habitat loss, and harvesting are potential drivers of species extinction. These factors are unlikely to act on isolation, but their combined effects are poorly understood. We explored these effects in Catopsis compacta, an epiphytic bromeliad commercially harvested in Oaxaca, Mexico. We analyzed local climate change projections, the dynamics of the vegetation patches, the distribution of Catopsis in the patches, together with population genetics and demographic information. A drying and warming climate trend projected by most climate change models may contribute to explain the poor forest regeneration. Catopsis shows a positive mean stochastic population growth. A PVA reveals that quasi‐extinction probabilities are not significantly affected by the current levels of harvesting or by a high drop in the frequency of wet years (2%) but increase sharply when harvesting intensity duplicates. Genetic analyses show a high population genetic diversity, and no evidences of population subdivision or a past bottleneck. Colonization mostly takes place on hosts at the edges of the fragments. Over the last 27 years, the vegetation cover has being lost at a 0.028 years^?1 rate, but fragment perimeter has increased 0.076 years^?1. The increases in fragment perimeter and vegetation openness, likely caused by climate change and logging, appear to increase the habitat of Catopsis, enhance gene flow, and maintain a growing and highly genetically diverse population, in spite of harvesting. Our study evidences conflicting requirements between the epiphytes and their hosts and antagonistic effects of climate change and fragmentation with harvesting on a species that can exploit open spaces in the forest. A full understanding of the consequences of potential threatening factors on species persistence or extinction requires the inspection of the interactions of these factors among each other and their effects on both the focus species and the species on which this species depends.     

A new biomonitoring protocol to determine the ecological health of impoundments using artificial substrates

The colonisation potential of macroinvertebrate families was measured using artificial substrates. These substrates were tested on three highveld impoundments. Bronkhorstspruit Dam was an amictic, mesotrophic impoundment, while Hartbeespoort and Roodeplaat Dams were both monomictic, eutrophic impoundments. Bronkhorstspruit Dam had the best water quality and the smallest algal population, comprising mainly diatom species. Hartbeespoort Dam had the most saline water (TDS 96–400 mg/l; NH₄ <0.004–0.218mg/l; NO₂+NO₃ 0.109–2.776mg/l; PO₄ <0.04–0.06mg/l), while Roodeplaat Dam had the highest nutrient concentrations (TDS 200–373mg/l; NH₄ <0.04–0.933mg/l; NO₂+NO₃ <0.04–2.310mg/l; PO₄ 0.041–0.472 mg/l). Both Hartbeespoort and Roodeplaat Dams had large algal populations that resulted in very alkaline water during summer. Microsystis dominated the phytoplankton population in these two impoundments during summer and autumn, while green algae and diatoms were dominant during winter and spring. Ecological health was determined using two different biotic indices. Two modifications of the Belgian Biotic Index and a modification of SASS4 (SASSD) were tested. Three health classes were suggested for SASSD scores and ASPT values. It is concluded that artificial substrates with SASSD (and ASPT) as a biotic index can be used to determine the biological health of impoundments, but that further refinement of the index is needed.     

山西太岳山油松群落对采伐干扰的生态响应

森林群落受到采伐干扰后的生态响应程度一直是森林生态学领域关注的研究前沿。本文以太岳山的油松林为对象,选择受不同采伐干扰强度和恢复时间的4块样地,通过固定标准地群落的调查获得数据资料,选用丰富度指数、Simpson指数（λ）、Shannon-Wiener指数（H'）、均匀度指数（E1）和Jaccard、Sprenson两种相似性指数,研究油松林对不同采伐方式生态响应,探讨不同采伐干扰强度和恢复时间下油松林生物多样性变化和更新演替规律。研究结果表明：1）受采伐干扰的样地中阳性植物的种类明显增多,随着恢复时间的增长,植物处于生长逐步旺盛、物种逐步丰富的阶段,其种类组成表现出由简单到复杂、由喜阳植物垄断到耐阴种类不断增多、种类由少变多的动态特征。2）适度的择伐可以提高群落整体的多样性,但皆伐则降低了群落的综合物种多样性。3）受相同择伐强度干扰后,群落之间保持了最高的相似性,皆伐干扰使群落环境有了本质的变化,与天然林的物种相似性最低。4）受采伐干扰后形成的次生林内,恢复初期中更新幼苗幼树出现6个树种,主要以油松和辽东栎（Quercus liaodungensi）为主。天然林中的环境最有利于油松幼苗的生长,择伐后恢复初期18a间幼树数量最高,幼苗数量最低,皆伐后更新幼苗幼树数量最少,环境条件最不利于更新。     

采伐木对森林碳储量的影响

森林是陆地生态系统中最大的碳库。在全球变暖背景下,有关林业管理对森林碳库的影响引起各国科学家的日益关注。目前国内大多数文献都将森林采伐木碳库视为当年排放,而实际上采伐木能长时间储存碳。本文根据利用方式和采伐习惯,将采伐木按使用方式分为:1)DBH≤6cm为采伐剩余物置于林内;2)DBH>6cm为实木产品和纸制产品。以长白山林区典型地带性植被阔叶红松林为对象,通过调查采伐前后乔木组成的变化,根据采伐木碳库实际排放情况,研究了采伐前后森林碳储量的动态变化。结果表明:留于林内采伐剩余物为1.1tC.hm-2,排放速度由大变小,全部排放时间80年;实木产品碳储量为20.56tC.hm-2,前80年累计排放20.07tC.hm-2(97.71%);纸制产品为3.63tC.hm-2,前7年累计排放3.45tC.hm-2(95.13%)。若将采伐木碳库视为当年排放,则碳库采伐后20年才能达到采伐前的水平;而考虑采伐木碳库实际排放速率,碳库储量则一直大于采伐前水平。因此,将采伐木碳库实际排放列入考虑,有利于合理估算我国森林碳储量,对正确评价我国森林碳汇功能具有积极意义。     

AtFtsH heterocomplex-mediated degradation of apoproteins of the major light harvesting complex of photosystem II (LHCII) in response to stresses

Chloroplastic heterocomplex consisting of AtFtsH1, 2, 5 and 8 proteases, integrally bound to thylakoid membrane was shown to play a critical role in degradation of photodamaged PsbA molecules, inherent to photosystem II (PSII) repair cycle and in plastid development. As no one thylakoid bound apoproteins besides PsbA has been identified as target for the heterocomplex-mediated degradation we investigated the significance of this protease complex in degradation of apoproteins of the major light harvesting complex of photosystem II (LHCII) in response to various stressing conditions and in stress-related changes in overall composition of LHCII trimers of PSII-enriched membranes (BBY particles). To reach this goal a combination of approaches was applied based on immunoblotting, in vitro degradation and non-denaturing isoelectrofocusing. Exposure of Arabidopsis thaliana leaves to desiccation, cold and high irradiance led to a step-wise disappearance of Lhcb1 and Lhcb2, while Lhcb3 level remained unchanged, except for high irradiance which caused significant Lhcb3 decrease. Furthermore, it was demonstrated that stress-dependent disappearance of Lhcb1–3 is a proteolytic phenomenon for which a metalloprotease is responsible. No changes in Lhcb1–3 level were observed due to exposition of var1-1 mutant leaves to the three stresses clearly pointing to the involvement of AtFtsH heterocomplex in the desiccation, cold and high irradiance-dependent degradation of Lhcb1 and Lhcb2 and in high irradiance-dependent degradation of Lhcb3. Non-denaturing isoelectrofocusing analyses revealed that AtFtsH heterocomplex-dependent differential Lhcb1–3 disappearance behaviour following desiccation stress was accompanied by modulations in abundances of individual LHCII trimers of BBY particles and that LHCII of var1-1 resisted the modulations.     

PSI颗粒中LHPC－I含量与类囊体膜状态的关系

菠菜叶绿体经低渗ＫＣｌ或１ｍｍｏｌ／ＬＥＤＴＡ溶液处理后,再用毛地黄苷法提取ＰＳＩ颗粒,前者ｃｈｌａ／ｂ高于后者。而ＥＤＴＡ－ＰＳＩ颗粒的耗氧活力极强,低温荧光发射具很强的Ｆ６８０。ＳＤＳ－凝胶电泳谱带也表明ＥＤＴＡ－ＰＳＩ颗粒具较浓的２０～２４ｋｄ谱带。凡此都说明ＥＤＴＡ－ＰＳＩ颗粒的ＬＨＰＣ～Ｉ含量远超过ＫＣＩ－ＰＳＩ颗粒的。而叶绿体经ＭｇＣｌ２、ＫＣｌ、ＥＤＴＡ溶液处理后,基粒类囊体膜垛叠的情况不同,它们的ｃｈｌａ／ｂ比值依次下降。说明ＰＳＩ颗粒中ＬＨＰＣ－Ｉ含量与提取时类囊体膜垛叠状态有关。