科研成果

2023
Sandanov DV, Kholina AB, Kozyrenko MM, Artyukova EV, Wang Z. Genetic Diversity of Oxytropis Species from the Center of the Genus Origin: Insight from Molecular Studies. Diversity. 2023;15:244.
Wang Y, Lyu T, Luo A, Dimitrov D, Wang Z. Geographic patterns in range sizes and their drivers of endemic angiosperms in China. Ecosphere. 2023;14:e4646.Abstract
Abstract Geographic range size of endemic species is the most important indicator of species' vulnerability to extinction and conservation prioritization, yet variation in range size among species and across space has been relatively understudied. We investigated the variations and geographic patterns of the range size of 9898 angiosperm species endemic to China and compared the effects of historical and contemporary climate and species' functional traits associated with dispersal ability (including growth form, fruit type, and sexual system) on range size variations. Our results revealed that narrow-ranged endemic species are clustered in Southwest China where angiosperm species' richness peaks. Winter temperature had the strongest and negative effect on the range size of narrow-ranged endemic species across space and species, while climate seasonality had the strongest and positive effect on the range size of wide-ranged endemic species. Both historical and contemporary climate have also influenced species range size indirectly via their effects on species' functional traits associated with dispersal ability. Range size of all endemic species, narrow-ranged and wide-ranged, showed little phylogenetic signal, suggesting that phylogenetic conservatism plays a minor role in range size variations. Our results show that the range size of angiosperm species endemic to China is driven by both extrinsic spatiotemporal environmental factors and intrinsic species' traits that allow species to cope with environmental change.
Xie J, Yuan X. The Geometric Bombieri-Lang Conjecture for Ramified Covers of Abelian Varieties. [Internet]. 2023. pdf
Qin Y, Wang Y, Li S, Deng H, Wanders N, Bosmans J, Huang L, chaopeng Hong, Byers E, Gingerich D, et al. Global assessment of the carbon–water tradeoff of dry cooling for thermal power generation. Nature Water. [Internet]. 2023:1–12. 访问链接
Wang Y, Luo A, Lyu T, Dimitrov D, Liu Y, Li Y, Xu X, Freckleton RP, Hao Z, Wang Z. Global distribution and evolutionary transitions of floral symmetry in angiosperms. Science Advances. 2023;9:eadg2555.Abstract
Floral symmetry plays an important role in plant-pollinator interactions and may have remarkable impacts on angiosperm diversification. However, spatiotemporal patterns in floral symmetry and drivers of these patterns remain unknown. Here, using newly compiled floral symmetry (actinomorphy versus zygomorphy) data of 279,877 angiosperm species and their distributions and phylogenies, we estimated global geographic patterns and macroevolutionary dynamics of floral symmetry. We found that frequency of actinomorphic species increased with latitude, while that of zygomorphic species decreased. Solar radiation, present-day temperature, and Quaternary temperature change correlated with geographic variation in floral symmetry frequency. Evolutionary transitions from actinomorphy to zygomorphy dominated floral symmetry evolution, although the transition rate decreased with decreasing paleotemperature throughout the Cenozoic. Notably, we found that zygomorphy may not favor diversification of angiosperms as previously observed in some clades. Our study demonstrates the influence of (paleo)climate on spatiotemporal patterns in floral symmetry and challenges previous views about role of flower symmetry in angiosperm diversification. (Paleo)climate profoundly influenced spatiotemporal patterns of angiosperm floral symmetry.
Guo Y. Global food loss and waste embodies unrecognized harms to air quality and biodiversity hotspots. Nature Food [Internet]. 2023. PDFAbstract
Yazhen Wu, Andre Deppermann PHSFMRHZLMCFQCHD*. Global Land-use and Sustainability Implications of Enhanced Bioenergy Import of China. Applied Energy. 2023.
Wu Y, Deppermann A, Havlík P, Frank S, Ren M, Zhao H, Ma L, Fang C, Chen Q, Dai H. Global land-use and sustainability implications of enhanced bioenergy import of China. Applied Energy. 2023;336:120769.Abstract
Most ambitious climate change mitigation pathways indicate multifold bioenergy expansion to support the energy transition, which may trigger increased biomass imports from major bioenergy-consuming regions. However, the potential global land-use change and sustainability trade-offs alongside the bioenergy trade remain poorly understood. Here, we apply the Global Biosphere Management Model (GLOBIOM) to investigate and compare the effects of different increasing bioenergy import strategies in line with the 1.5℃-compatible bioenergy demand in China, which is projected to represent 30% of global bioenergy consumption by the middle of the century. The results show that sourcing additional bioenergy from different world regions could pose heterogeneous impacts on the local and global land systems, with implications on food security, greenhouse gas emissions, and water and fertilizer demand. In the worst cases under strict trade settings, relying on biomass import may induce up to 25% of unmanaged forests converted to managed ones in the supplying regions, while in an open trade environment, increasing bioenergy imports would drastically change the trade flows of staple agricultural or forestry products, which would further bring secondary land-use changes in other world regions. Nevertheless, an economically optimized biomass import portfolio for China has the potential to reduce global overall sustainability trade-offs with food security and emission abatement. However, these benefits vary with indicator and time and are conditional on stricter land-use regulations. Our findings thus shed new light on the design of bioenergy trade strategies and the associated land-use regulations in individual countries in the era of deep decarbonization.
Xiong F, Su Z, Tang Y, Dai T, Wen D. Global WWTP Microbiome-based Integrative Information Platform: From experience to intelligence. Environmental Science and Ecotechnology [Internet]. 2023:100370. 访问链接Abstract
Domestic and industrial wastewater treatment plants (WWTPs) are facing formidable challenges in effectively eliminating emerging pollutants and conventional nutrients. In microbiome engineering, two approaches have been developed: a top-down method focusing on domesticating seed microbiomes into engineered ones, and a bottom-up strategy that synthesizes engineered microbiomes from microbial isolates. However, these approaches face substantial hurdles that limit their real-world applicability in wastewater treatment engineering. Addressing this gap, we propose the creation of a Global WWTP Microbiome-based Integrative Information Platform, inspired by the untapped microbiome and engineering data from WWTPs and advancements in artificial intelligence (AI). This open platform integrates microbiome and engineering information globally and utilizes AI-driven tools for identifying seed microbiomes for new plants, providing technical upgrades for existing facilities, and deploying microbiomes for accidental pollution remediation. Beyond its practical applications, this platform has significant scientific and social value, supporting multidisciplinary research, documenting microbial evolution, advancing Wastewater-Based Epidemiology, and enhancing global resource sharing. Overall, the platform is expected to enhance WWTPs’ performance in pollution control, safeguarding a harmonious and healthy future for human society and the natural environment.
Xu R, Zeng Z, Pan M, Ziegler AD, Holden J, Spracklen DV, Brown LE, He X, Chen D, Ye B, et al. A global-scale framework for hydropower development incorporating strict environmental constraints. Nature Water [Internet]. 2023;1(1):113-122. 访问链接Abstract
The benefits of developing the world’s hydropower potential are intensely debated when considering the need to avoid or minimize environmental impacts. However, estimates of global unused profitable hydropower potential with strict environmental constraints have rarely been reported. In this study we performed a global assessment of the unused profitable hydropower potential by developing a unified framework that identifies a subset of hydropower station locations with reduced environmental impacts on the network of 2.89 million rivers worldwide. We found that the global unused profitable hydropower potential is 5.27 PWh yr−1, two-thirds of which is distributed across the Himalayas. Africa’s unused profitable hydropower is 0.60 PWh yr−1, four times larger than its developed hydropower. By contrast, Europe’s hydropower potential is extremely exploited. The estimates, derived from a consistent and transparent framework, are useful for formulating national hydropower development strategies.
Yuan TX; Y. Go with the wind: Spatial impacts of environmental regulations on economic activities in China. Journal of Development Economics [Internet]. 2023;164(103139). 访问链接Abstract
This paper assesses the spatial effects of environmental regulations on economic activities. By exploiting the progressive rollout of a national pollution control program in China, which constructed a monitoring network that covered the urban center of every city, we find that polluting firms located in the unmonitored upwind region of the city experienced a substantially larger reduction in output than non-upwind firms after the program. Because the wind can transport upwind pollution emissions to the monitoring network-covered urban center, local governments are incentivized to enforce tighter regulations on upwind firms. Although industrial activities were suppressed, commercial businesses and residential services were promoted in the upwind region, accompanied by a greater supply of corresponding land and increased land prices. Altogether, the monitoring program led to a substantial reduction in population exposure to air pollution and an redistribution of industrial and residential activities within the city. Our findings shed light on the policy-making of future environmental regulation programs.
Zhao Y. et al. Google Earth Engine-Based Estimation of the Spatio-Temporal Distribution of Suspended Sediment Concentrations in a Multi-Channel River System of the Yangtze River Basin. Water Resources Research [Internet]. 2023;59:e2023WR034967. 访问链接Abstract
Lowland multi-channel alluvial river systems are highly variable in frequency and magnitude of floodplain inundation and are vulnerable to human activities such as damming. In the Yangtze River Basin, the Three Gorges Dam (TGD) has trapped >80% of upstream sediment supply, causing downstream scouring and rapid geomorphic changes in river and its floodplain lakes. Suspended sediment concentration (SSC) is widely used to monitor river morphodynamics, but traditional measurements of SSC are time consuming, costly and difficult to quantify SSC in a large spatial scale. Using Google Earth Engine and in situ observed hydrological data, we created a multiple linear regression model to map SSC in the multi-channel system Songzi River of the Yangtze. The new SSC predictive model achieved high accuracy (R2: 0.87) and showed opposite downstream trends in SSC during peak flood years and normal flood years. For the first time, we found that in the peak flood year of 1998 the study rivers exhibit a downstream increase trend of SSC with an abrupt increase in their middle reach, while SSC in normal flood years experiences a downstream decline with minimal changes. A prominent difference in SSC is also revealed after the TGD with a reduction of 60%. Furthermore, SSC in the closely hydrologically connected lakes is more dynamic than the less connected lakes. Our study demonstrates that the proposed method enables to rapidly quantify the spatio-temporal SSC distribution in the multi-channel systems on the floodplain of large alluvial rivers and highlights the importance of connectivity in regulating SSC dynamics.
Wu C-Y. Governor versus Bakers: Ways to Deal with Disorder at Ephesus., in 17th International Conference of the Taiwan Association of Classical, Medieval and Renaissance Studies. Chinese Culture University Taipei, China; 2023.Abstract
This paper looks at how the Ephesian gubernatorial edict (Ephesos 231 = IK 12.215 p. 27) found near Magnesia ad Maenandrum can be an adequate response to a state of public disorder (ταραχή) and madness (ἀπονοία) caused by bakers refusing to supply the city with the necessary production of bread. The goal of the gubernatorial edict was to restore sense to the demos by edict (διατάγματι σωφρονίζειν) without having to arrest, try, and punish offenders. Specific measures include forbidding bakers to gather according to association (μήτε συνέρχεσθαι κατ᾽ ἑταίρα), and forbidding those who stood as bakers' representatives from behaving rashly (μήτε προεστηκότας θρασύνεσθαι), along with the specific demand that leaders are to obey authority (πειθαρχεῖν) and produce bread. The reference to an agreement, and the subsequent result clause, may suggest that one party to the agreement defaulted and led to widespread discontent, though the fragmentary nature of the inscription makes it difficult to speculate further. But the edict only resorted to banning gatherings, with no comment on the root causes of dissent. Additional assistance provided by the boule would have been necessary and likely given, though the part of the stone has been lost. Recent discussions on how governors dealt with issues pertaining to public order (Fuhrmann 2012) and the eirenarchate (Rife 2002) can be of some guidance. In addition, this paper explores mechanisms and tools accessible to praesidial governors based on the corpus of known gubernatorial edicts collected as part of a larger project to consider possible scenarios.
Fan A, Fu Y, Tao Y, Jin Z, Han H, Liu H, Zhang Y, Yan B, Yang Y, HUANG R. Hadamard product-based in-memory computing design for floating point neural network training. Neuromorphic Computing and Engineering (NCE) [Internet]. 2023;3(1). 访问链接
Xue T, Tong M, Wang M, Yang X, Wang Y, Lin H, Liu H, Li J, Huang C, Meng X, et al. Health Impacts of Long-Term NO2 Exposure and Inequalities among the Chinese Population from 2013 to 2020 after China's clean air actions: progress in efficacy and geographic equality. Environmental Science & Technology. 2023;57(13):5349-5357.
Tang J, Xu J, Zhang H, Liu W, Li H, Xia J, Xing X. High efficient PMS activation by synergistic effects of bimetallic sulfide FeS2@MoS2 for rapid OFX degradation. Chemical Engineering Journal [Internet]. 2023;475:146023. 访问链接Abstract
Antibiotics have been widely used to treat bacterial diseases. Their wide spread in ecological environment will induce generation of antibiotic-resistant bacteria Therefore, it is critical to create an eco-friendly and effective approach for their removal. Herein, a bimetallic sulfide FeS2@MoS2 with rich sulfur vacancies (SVs) and high percentage of metallic 1T phase MoS2 was prepared by one-step solvothermal method to degrade ofloxacin (OFX) by activated peroxymonosulfate (PMS). FeS2@MoS2-1 (the mass ratio of Fe/Mo is 1) exhibited excellent performance for PMS activation, with 99.26% OFX removed in 20 min (0.2 g/L FeS2@MoS2-1, 0.2 mM PMS, initial pH). The degradation rate constant of kobs was 0.21 min−1 with FeS2@MoS2-1 system, which was about 4.88 and 22.91 times of FeS2/PMS and MoS2/PMS systems under the same experimental conditions respectively. In FeS2@MoS2-1, besides S2−, SVs would also accelerate Fe(III)/Fe(II) circulation through increasing the exposure of Mo(IV) active sites. Additionally, MoS2 transferred from the semi-conductive 2H phase to the metallic 1T phase, which could speed up electron transfer rate significantly. Quenching experiment and EPR test showed that SO4− and O2− were the main active oxygen species. Degradation pathway was proposed through the active sites identification by DFT calculations and intermediates detection by HPLC-MS analyzation. The results showed that OFX were vulnerable to be attacked and broke to form small molecular compounds through hydrogen loss, oxidative cracking, decarboxylation and demethylation four ways. In addition, their bio-toxicity was investigated and results showed that the toxic was diminished. This work indicated that the satisfactory universality, recyclability and stability enabled FeS2@MoS2-1 could be used as an efficient catalyst to activate PMS to degrade refractory organic pollutants in water.
Tang L, Hu M, Shang D, Fang X, Mao J, Xu W, Zhou J, Zhao W, Wang Y, Zhang C, et al. High frequency of new particle formation events driven by summer monsoon in the central Tibetan Plateau, China. Atmospheric Chemistry and PhysicsAtmospheric Chemistry and Physics. 2023;23:4343-4359.
Tang LZ, Hu M*. High frequency of new particle formation events driven by summer monsoon inthe central Tibetan Plateau, China. ATMOSPHERIC CHEMISTRY AND PHYSICS [Internet]. 2023;23(7):4343-4359. 访问链接
Kagawa R, Cheng Z, Kawamura K, Ohno Y, Moriyama C, Sakaida Y, Ouchi S, Uratani H, Inoue K, Nagai Y. High Thermal Stability and Low Thermal Resistance of Large Area GaN/3C‐SiC/Diamond Junctions for Practical Device Processes. Small. 2023:2305574.
Wang C, Wang K. Highly structured turbulence in high-mass star formation: An evolved infrared-dark cloud G35.20-0.74 N. \aap. 2023;674:A46.

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