Your search keyword '"Hongqiang Yang"' showing total 12 results

1. Effects of the Implementation Intensity of Ecological Engineering on Ecosystem Service Tradeoffs in Qinghai Province, China

Author

Ke Yan, Bingting Zhao, Yuanhui Li, Xiangfu Wang, Jiaxin Jin, Jiang Jiang, Wenting Dong, Rongnv Wang, Hongqiang Yang, Tongli Wang, and Weifeng Wang

Subjects

ecological engineering, land management, multi-scenario simulation, production possibility frontier, tradeoff intensity, Agriculture

Abstract

Ecological engineering (EE) has a profound impact on land-use dynamics, leading to alterations in ecosystem services (ESs). However, an appropriate EE implementation intensity that can balance the tradeoffs associated with altered ESs well has always been a concern for researchers and policymakers. In this study, we set the transition probability of farmland, bare land, and desertification land to forest and natural shrub, with 2010–2020 as the natural implementation scenario, as 10% for the low-intensity implementation scenario (LIS), 30% for the medium-intensity scenario, and 50% for the high-intensity scenario. The patch-generating land-use simulation (PLUS) model was used to project land-use patterns and the Integrated Valuation of Ecosystem Service and Tradeoffs (InVEST) model was used to simulate changes in the quality of ESs under four EE implementation intensities in 2030. We then performed a quantitative tradeoff analysis on the dominant ESs under four scenarios and used the production possibility frontier (PPF) curve to identify the optimal EE implementation intensity scenario. Our results indicated that an increase in EE implementation intensity would lead to an increase in soil retention, water purification, habitat quality, and carbon storage, but also to a decrease in water yield, aggravating the tradeoffs between water yield and other ESs. In all EE implementation intensity scenarios, the LIS had the lowest tradeoff intensity index and balanced ESs well, and thus was the optimal EE implementation scenario in Qinghai province. Our results provide knowledge to help decision makers select the appropriate EE intensity to maintain sustainable development. The integrated methodology can also be applied in other conservation regions to carry out practical land management.

Published

2024

2. Enhancing Inactivated Yellow Fever 17D Vaccine-Induced Immune Responses in Balb/C Mice Using Alum/CpG

Author

Yadan Zhang, Rong Yang, Guangying Yuan, Weidong Li, Zihao Cui, Zhuangzhuang Xiao, Xiaofei Dong, Hongqiang Yang, Xiaojuan Liu, Le Zhang, Yirong Hou, Manyu Liu, Sushi Liu, Yu Hao, Yuntao Zhang, and Xiaotong Zheng

Subjects

adjuvant, CpG, yellow fever, vaccine, immunogenicity, Medicine

Abstract

There are some concerns about the safety of live attenuated yellow fever vaccines (YF–live), particularly viscerotropic adverse events, which have a high mortality rate. The cellular production of the vaccine will not cause these adverse effects and has the potential to extend applicability to those who have allergic reactions, immunosuppression, and age. In this study, inactivated yellow fever (YF) was prepared and adsorbed with Alum/CpG. The cellular and humoral immunities were investigated in a mouse model. The results showed that Alum/CpG (20 μg/mL) could significantly increase the binding and neutralizing activities of the antibodies against YF. Moreover, the antibody level at day 28 after one dose was similar to that of the attenuated vaccine, but significantly higher after two doses. At the same time, Alum/CpG significantly increased the levels of IFN-γ and IL-4 cytokines.

Published

2023

3. H2S Enhanced the Tolerance of Malus hupehensis to Alkaline Salt Stress through the Expression of Genes Related to Sulfur-Containing Compounds and the Cell Wall in Roots

Author

Huan Li, Weiwei Zhang, Mengyuan Han, Jianfei Song, Yuansheng Ning, and Hongqiang Yang

Subjects

Malus hupehensis, alkaline salt, H2S, root, RNA-seq, cell wall, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Malus is an economically important plant that is widely cultivated worldwide, but it often encounters saline–alkali stress. The composition of saline–alkali land is a variety of salt and alkali mixed with the formation of alkaline salt. Hydrogen sulfide (H2S) has been reported to have positive effects on plant responses to abiotic stresses. Our previous study showed that H2S pretreatment alleviated the damage caused by alkaline salt stress to Malus hupehensis Rehd. var. pingyiensis Jiang (Pingyi Tiancha, PYTC) roots by regulating Na+/K+ homeostasis and oxidative stress. In this study, transcriptome analysis was used to investigate the overall mechanism through which H2S alleviates alkaline salt stress in PYTC roots. Simultaneously, differentially expressed genes (DEGs) were explored. Transcriptional profiling of the Control-H2S, Control-AS, Control-H2S + AS, and AS-H2S + AS comparison groups identified 1618, 18,652, 16,575, and 4314 DEGs, respectively. Further analysis revealed that H2S could alleviate alkaline salt stress by increasing the energy maintenance capacity and cell wall integrity of M. hupehensis roots and by enhancing the capacity for reactive oxygen species (ROS) metabolism because more upregulated genes involved in ROS metabolism and sulfur-containing compounds were identified in M. hupehensis roots after H2S pretreatment. qRT-PCR analysis of H2S-induced and alkaline salt-response genes showed that these genes were consistent with the RNA-seq analysis results, which indicated that H2S alleviation of alkaline salt stress involves the genes of the cell wall and sulfur-containing compounds in PYTC roots.

Published

2022

4. Evaluation of CFOSAT Scatterometer Wind Data in Global Oceans

Author

Haijun Ye, Junmin Li, Bo Li, Junliang Liu, Danling Tang, Wuyang Chen, Hongqiang Yang, Fenghua Zhou, Rongwang Zhang, Sufen Wang, and Shilin Tang

Subjects

CFOSAT, wind vector, evaluation, buoy, scatterometer, Science

Abstract

The China-France Oceanography SATellite (CFOSAT), launched on 29 October 2018, is a joint mission developed by China and France. To evaluate the CFOSAT wind product, L2B swath data with a spatial resolution of 25 × 25 km were compared with in situ measurements between December 2018 and December 2020. The in situ measurements were collected from 217 buoys. All buoy winds were adjusted to 10 m height using a simple logarithmic correction method. The temporal and spatial separations between the CFOSAT and in situ measurements were restricted to less than 30 min and 0.25°. The results indicate that the CFOSAT wind retrievals agree well with the buoy measurements. The root mean square errors (RMSEs) of wind vectors were 1.39 m s−1 and 34.32° and negligible biases were found. In the near shore under rain-free conditions, the RMSEs were enhanced to 1.42 m s−1 and 33.43°. Similarly, the RMSEs were reduced to 1.16 m s−1 and 30.41° offshore after the rain effect was removed. After winds less than 4 m s−1 were removed, the RMSE of wind directions was reduced to 19.69°. The effects of significant wave height, air-sea temperature difference, sea surface temperature, atmospheric pressure and ocean surface current on the wind residuals were assessed. The performance of wind retrievals under the passage of tropical cyclones was evaluated. The evaluation results show that the CFOSAT wind retrievals satisfy the accuracy requirements of scientific research, although some improvements are needed to enhance the performance.

Published

2021

5. Contributions of China’s Wood-Based Panels to CO2 Emission and Removal Implied by the Energy Consumption Standards

Author

Shanshan Wang, Han Zhang, Ying Nie, and Hongqiang Yang

Subjects

wood-based panels, climate change mitigation, energy consumption, production approach, Plant ecology, QK900-989

Abstract

Life cycle analysis on wood-based panels in terms of CO2 flux can be used to quantitatively assess the climate change contributions of these materials. In this study, the annual CO2 flux between 1990 and 2015 was calculated through gate-to-gate life cycle analysis of wood-based panels. As implied by the energy consumption standards, China’s wood-based panels used to be carbon sources during the period 1990–2007, with the average contribution to CO2 emissions of 9.20 Mt/year. The implementation of new standards and the development of Cleaner production technologies in China, decreased the energy consumption per panel. China’s wood-based panels acted as a carbon sink between 2008 and 2015, with the average contribution to CO2 removal of 31.71 Mt/year. Plywood produced the largest contributions to the emission and removal of CO2, and was followed by fiberboard and particleboard. China’s wood-based panels, with good prospects and strong demands projected in the future, can potentially contribute to climate change mitigation.

Published

2017

6. Eliminating Illegal Timber Consumption or Production: Which Is the More Economical Means to Reduce Illegal Logging?

Author

Xiaobiao Zhang, Bin Xu, Lei Wang, Aijun Yang, and Hongqiang Yang

Subjects

illegal logging, eliminating consumption, eliminating production, added value, input–output analysis, GFPM, Plant ecology, QK900-989

Abstract

Illegal logging, with its related trade of illegally harvested timber, is one of the main environmental and economic problems worldwide. Eliminating illegal timber consumption and production are two practical means to reduce illegal logging. However, the problem of determining which of the two means is more economical remains to be analyzed. In this study, an input–output analysis was conducted to evaluate the consumption and production of illegal timber in different countries. The Global Forest Products Model (GFPM) was employed to analyze the effects of eliminating illegal timber consumption and production on the added value of the forest sector at global and national levels. Results indicated that eliminating illegal timber production is more economical than eliminating consumption at the global level. The former is estimated to decrease the added value of the global forest sector only by 3.37% compared to 7.31% by the latter in 2030. Eliminating the production of illegal timber will result in uneven distribution of social wealth in the forest sector, and will pass the cost of reducing illegal logging onto developing countries. Developed countries would gain more added value and market scale than the global average, whereas developing countries would suffer a loss if illegal timber production is eliminated. Hence, developed countries are encouraged to provide financial support to help developing countries reduce illegal logging.

Published

2016

7. A Decade Trend of Total Factor Productivity of Key State-Owned Forestry Enterprises in China

Author

Hongqiang Yang, Tian Yuan, Xiaobiao Zhang, and Suyan Li

Subjects

key state-owned forestry enterprise, total factor productivity, Malmquist–DEA model, China, Plant ecology, QK900-989

Abstract

State-owned forestry enterprises are important elements of the forestry economy in China. The operational efficiency of such enterprises depends on technological progress and other input factors. Total factor productivity (TFP) is an important means to evaluate the efficiency of technical elements. The growth of production efficiency can be classified into efficiency variation and technical variation. The TFP of 135 key state-owned forestry enterprises in the northeast, southwest, and northwest regions of China in 2001–2011 was measured through Malmquist–data envelopment analysis. The technological progress of the state-owned forestry enterprises positively affected TFP variation, but technical efficiency only slightly increased and scale efficiency even negatively affected TFP variation. The average growth rate of TFP in the northwest region is higher than those in the northeast and southwest regions. The Western Development Program of China increasingly contributes to the economic development of western areas. The increasing investment of the government in science and technology accelerates the development of forestry economy in China.

Published

2016

8. The Status of Coral Reefs and Its Importance for Coastal Protection: A Case Study of Northeastern Hainan Island, South China Sea

Author

Haiyang Zhang, Tegu Chen, Guohui Liu, Dapeng Jiang, Meixia Zhao, Cuitian Li, Hongqiang Yan, Hongqiang Yang, Pu Guo, Yu Zhong, Rui Wang, and Hongyu Zhang

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Coral, Fringing reef, Geography, Planning and Development, Porites, fringing reef, TJ807-830, Management, Monitoring, Policy and Law, wave-controlled coast, TD194-195, 01 natural sciences, Renewable energy sources, shoreline protection, Galaxea, Coastal engineering, GE1-350, 0105 earth and related environmental sciences, coastal erosion, geography, geography.geographical_feature_category, ecological degradation, biology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, 010604 marine biology & hydrobiology, Coral reef, biology.organism_classification, Coastal erosion, Fishery, Environmental sciences, Bay

Abstract

This study evaluated the status of coral communities at the fringing reefs in the northern South China Sea, and their potential role in maintaining nearby coastline stability of northeastern Hainan Island (Puqian Bay, Hainan Bay). Thirty-nine coral species were recorded with mean coral cover of 5.3%, and are dominated by massive Galaxea, Platygyra and Porites. The coral communities were clustered into two groups (Clu-HNB and Clu-PQB) corresponding to different stable coastal conditions. Coral communities at the Hainan Bay with higher diversity and greater cover corresponded to relatively stable coastline, whereas those at the southern Puqian Bay (with the lowest coral diversity and spatial coverage) corresponded to severe coastline erosion. This work provides some direct evidence that declined coral reefs would weaken their functions to maintain a stable coastline, resulting in severe coastal erosion. It is also useful to help coastal managers and local people pay more attention to the importance of coral reefs in coastal protection and encourage them to change their ways to get sustainable use of coral reef resources. It may be beneficial to inspire or initiate coastal engineering to manage coasts with natural coral reef solution.

Published

2019

9. Evaluation of CFOSAT Scatterometer Wind Data in Global Oceans

Author

Junmin Li, Haijun Ye, Bo Li, Chen Wuyang, Danling Tang, Sufen Wang, Rongwang Zhang, Fenghua Zhou, Shilin Tang, Hongqiang Yang, and Junliang Liu

Subjects

010504 meteorology & atmospheric sciences, Meteorology, Science, buoy, 0211 other engineering and technologies, 02 engineering and technology, 01 natural sciences, wind vector, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Shore, geography, evaluation, geography.geographical_feature_category, Buoy, CFOSAT, Scatterometer, Wind direction, Sea surface temperature, General Earth and Planetary Sciences, Environmental science, Satellite, scatterometer, Tropical cyclone, Significant wave height

Abstract

The China-France Oceanography SATellite (CFOSAT), launched on 29 October 2018, is a joint mission developed by China and France. To evaluate the CFOSAT wind product, L2B swath data with a spatial resolution of 25 × 25 km were compared with in situ measurements between December 2018 and December 2020. The in situ measurements were collected from 217 buoys. All buoy winds were adjusted to 10 m height using a simple logarithmic correction method. The temporal and spatial separations between the CFOSAT and in situ measurements were restricted to less than 30 min and 0.25°. The results indicate that the CFOSAT wind retrievals agree well with the buoy measurements. The root mean square errors (RMSEs) of wind vectors were 1.39 m s−1 and 34.32° and negligible biases were found. In the near shore under rain-free conditions, the RMSEs were enhanced to 1.42 m s−1 and 33.43°. Similarly, the RMSEs were reduced to 1.16 m s−1 and 30.41° offshore after the rain effect was removed. After winds less than 4 m s−1 were removed, the RMSE of wind directions was reduced to 19.69°. The effects of significant wave height, air-sea temperature difference, sea surface temperature, atmospheric pressure and ocean surface current on the wind residuals were assessed. The performance of wind retrievals under the passage of tropical cyclones was evaluated. The evaluation results show that the CFOSAT wind retrievals satisfy the accuracy requirements of scientific research, although some improvements are needed to enhance the performance.

Published

2021

10. A Rethinking of the Production Approach in IPCC: Its Objectiveness in China

Author

Xiaobiao Zhang and Hongqiang Yang

Subjects

China, Production Approach, 010504 meteorology & atmospheric sciences, Natural resource economics, complete national HWP carbon pool, Geography, Planning and Development, Climate change, TJ807-830, International trade, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, Empirical research, Stock-Change Approach, Economics, Production (economics), GE1-350, objectiveness, 0105 earth and related environmental sciences, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, Carbon pool, Environmental sciences, Balance (accounting), Sustainability, Emissions trading, business

Abstract

The trade of harvested wood products (HWPs) and their feedstock increasingly affects the dynamics of the complete national HWP carbon pool ignored by the Production Approach (PA), the current universal method, proposed by the Intergovernmental Panel on Climate Change. Existing research also overlooks the inherent factors that lead to the non-objectiveness of PA that affects the potential carbon trade and the sustainable use of forestry resources. This study aimed to investigate such inherent factors through a deductive derivation of PA and the Stock-Change Approach (SCA), based on which an empirical study on China was conducted to rethink the objectiveness of PA in the complete national HWP carbon pool. The deductive derivation indicated that the inherent factors rely on the balance between coefficients that describe the relationship between HWP trade and production and the relationship between the corresponding feedstock trade and production. The empirical study further illustrated that the dynamics of balance between coefficients negatively influence the objectiveness of PA. The absolute objectiveness of this approach was constantly weakened in the past 55 years and may potentially occur yet again in the future despite an improvement in its annual relative objectiveness.

Published

2016

11. Comparison of Product Carbon Footprint Protocols: Case Study on Medium-Density Fiberboard in China

Author

Hongqiang Yang, Weifeng Wang, and Shanshan Wang

Subjects

Greenhouse Effect, China, 020209 energy, Health, Toxicology and Mutagenesis, lcsh:Medicine, Carbon dioxide equivalent, Incineration, 02 engineering and technology, 010501 environmental sciences, Fiberboard, 01 natural sciences, Article, publicly available specification (PAS) 2050, 0202 electrical engineering, electronic engineering, information engineering, greenhouse gas (GHG) emissions, Life-cycle assessment, Carbon Footprint, 0105 earth and related environmental sciences, Protocol (science), Air Pollutants, Waste management, environmental hotspots, lcsh:R, Public Health, Environmental and Occupational Health, Carbon Dioxide, carbon storage, Wood, Product life-cycle management, Greenhouse gas, visual_art, life cycle assessment (LCA), visual_art.visual_art_medium, Carbon footprint, Environmental science, Environmental Monitoring

Abstract

Carbon footprint (CF) analysis is widely used to quantify the greenhouse gas (GHG) emissions of a product during its life cycle. A number of protocols, such as Publicly Available Specification (PAS) 2050, GHG Protocol Product Standard (GHG Protocol), and ISO 14067 Carbon Footprint of Products (ISO 14067), have been developed for CF calculations. This study aims to compare the criteria and implications of the three protocols. The medium-density fiberboard (MDF) (functional unit: 1 m3) has been selected as a case study to illustrate this comparison. Different criteria, such as the life cycle stage included, cut-off criteria, biogenic carbon treatment, and other requirements, were discussed. A cradle-to-gate life cycle assessment (LCA) for MDF was conducted. The CF values were &minus, 667.75, &minus, 658.42, and 816.92 kg of carbon dioxide equivalent (CO2e) with PAS 2050, GHG protocol, and ISO 14067, respectively. The main reasons for the different results obtained were the application of different cut-off criteria, exclusion rules, and the treatment of carbon storage. A cradle-to-grave assessment (end-of-life scenarios: landfill and incineration) was also performed to identify opportunities for improving MDF production. A sensitivity analysis to assess the implications of different end-of-life disposals was conducted, indicating that landfill may be preferable from a GHG standpoint. The comparison of these three protocols provides insights for adopting appropriate methods to calculate GHG emissions for the MDF industry. A key finding is that for both LCA practitioners and policy-makers, PAS 2050 is preferentially recommended to assess the CF of MDF.

Published

2018

12. Eliminating Illegal Timber Consumption or Production: Which Is the More Economical Means to Reduce Illegal Logging?

Author

Hongqiang Yang, Xiaobiao Zhang, Bin Xu, Aijun Yang, and Lei Wang

Subjects

eliminating production, Natural resource economics, Input–output model, eliminating consumption, input–output analysis, 0211 other engineering and technologies, Developing country, Distribution (economics), 02 engineering and technology, illegal logging, GFPM, Added value, Production (economics), added value, 040101 forestry, Consumption (economics), business.industry, Environmental resource management, 021107 urban & regional planning, Forestry, lcsh:QK900-989, 04 agricultural and veterinary sciences, lcsh:Plant ecology, 0401 agriculture, forestry, and fisheries, Business, Illegal logging, Economic problem

Abstract

Illegal logging, with its related trade of illegally harvested timber, is one of the main environmental and economic problems worldwide. Eliminating illegal timber consumption and production are two practical means to reduce illegal logging. However, the problem of determining which of the two means is more economical remains to be analyzed. In this study, an input–output analysis was conducted to evaluate the consumption and production of illegal timber in different countries. The Global Forest Products Model (GFPM) was employed to analyze the effects of eliminating illegal timber consumption and production on the added value of the forest sector at global and national levels. Results indicated that eliminating illegal timber production is more economical than eliminating consumption at the global level. The former is estimated to decrease the added value of the global forest sector only by 3.37% compared to 7.31% by the latter in 2030. Eliminating the production of illegal timber will result in uneven distribution of social wealth in the forest sector, and will pass the cost of reducing illegal logging onto developing countries. Developed countries would gain more added value and market scale than the global average, whereas developing countries would suffer a loss if illegal timber production is eliminated. Hence, developed countries are encouraged to provide financial support to help developing countries reduce illegal logging.

Published

2016