Your search keyword '"Qianmei Zhang"' showing total 108 results

1. Influence of photosynthetic active radiation on sap flow dynamics across forest succession stages in Dinghushan subtropical forest ecosystem

Author

Jianqiang Huang, Fasih Ullah Haider, Wanxuan Huang, Shizhong Liu, Brian Njoroge Mwangi, Vincent Suba, Lindsay Sikuku, Xuli Tang, Qianmei Zhang, Guowei Chu, Deqiang Zhang, Juxiu Liu, Ze Meng, Dennis Otieno, and Yuelin Li

Subjects

Forest succession, Sap flow, Environment factor, Soil water content, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

With the intensification of global change, forests are subjected to varying degrees of drought or high-temperature stress, which has an indelible impact on the growth of trees. However, knowledge on the response of sap flow to environmental changes in different types of forests is still rare, especially in China's subtropical forest ecosystem. Consequently, studying how different tree species regulate their sap flow in response to shifting environmental conditions is essential for understanding forest transpiration, water use efficiency, and drought stress resilience. Therefore, this study aimed to investigate the sap flow dynamics of seven tree species in five forest plots, i.e., pine forest (PF), two types of mixed conifer-broadleaf forests (MF1+MF2), monsoon evergreen broadleaved forest (MEBF), and montane monsoonal evergreen broad-leaf forest (MOBF) at Dinghushan National Reserve in Southern China, using the heat dissipation probe technique and synchronous environmental factor recordings. Results demonstrated a significant influence of photosynthetic active radiation (PAR) on sap flow across all tree species, with mean PAR values ranging from over 1200 to 425 μmol m−2 s−1, establishing it as the principal driving factor. This observation underscores the heightened responsiveness or sensitivity of tree species to variations in PAR as the forest undergoes development and maturation. The correlation between vapor pressure deficit (VPD) and tree sap flow decreased as succession progressed. Moreover, the influence of soil water content (SWC) on sap flow stability against environmental changes increased. Similar patterns were also found between the two MF, with MF-2 displaying ecological characteristics and environmental conditions more closely aligned with those of the late-successional MEBF. The study reveals the intricate relationship between environmental factors and sap flow regulation in tree species within a subtropical forest ecosystem. Addressing a comparative gap in sap flow correlation among dominant tree species at Dinghushan, it establishes a hydro-physiological foundation for understanding tree species substitution during forest succession. The results provide key insights for forest management and climate-related research. Future studies should delve into the long-term implications of observed sap flow dynamics, exploring their impact on tree species adaptability amid ongoing environmental changes.

Published

2024

2. Climate change reshapes plant trait spectrum to explain biomass dynamics in an old-growth subtropical forest

Author

Anchi Wu, Xin Xiong, Roy González-M, Ronghua Li, Andi Li, Juxiu Liu, Xuli Tang, and Qianmei Zhang

Subjects

carbon sequestration, compensatory growth, demographic rates, trait probability density, extreme drought, subtropical forest, Plant culture, SB1-1110

Abstract

Climate change leads to novel species interactions and continues to reshuffle ecological communities, which significantly declines carbon accumulation rates in mature forests. Still, little is known about the potential influence of multiple global change factors on long-term biomass dynamics and functional trait combinations. We used temporal demographic records spanning 26 years and extensive databases of functional traits to assess how old-growth subtropical forest biomass dynamics respond to various climatic change scenarios (extreme drought, subsequent drought, warming, elevated CO2 concentrations, and windstorm). We found that the initial severe drought, subsequent drought and windstorm events increased biomass loss due to tree mortality, which exceeded the biomass gain produced by survivors and recruits, ultimately resulting in more negative net biomass balances. These drought and windstorm events caused massive biomass loss due to tree mortality that tended towards acquisition species with high hydraulic efficiency, whereas biomass growth from survivors and recruits tended to consist of acquisition species with high hydraulic safety. Compensatory growth in this natural forest provided good explanation for the increase in biomass growth after drought and windstorm events. Notably, these dominant-species transitions reduced carbon storage and residence time, forming a positive carbon-climate feedback loop. Our findings suggest that climate changes could alter functional strategies and cause shifts in new dominant species, which could greatly reduce ecological functions and carbon gains of old-growth subtropical forests.

Published

2023

3. Clustered tree size analysis of bio-productivity of Dinghushan National Nature Reserve in China

Author

Yuelin Li, Maina John Nyongesah, Libin Deng, Fasih Ullah Haider, Shizhong Liu, Brian Njoroge Mwangi, Qianmei Zhang, Guowei Chu, Deqiang Zhang, Juxiu Liu, and Ze Meng

Subjects

bio-productivity, forest biomass, life forms, diameter at breast height, broadleaved, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Over various terrain types, natural forests exhibit tree size and biomass variation. We started long- term research that consists of forest vegetation surveys in the Dinghushan National Nature Reserve to comprehensively investigate productivity based on the structure and species composition of China’s forest communities. We grouped the trees into three categories, i.e., as large or mature (DBH > 30 cm), medium-sized or growing (DBH 10–30 cm), and small-sized or regenerating seedlings (DBH

Published

2023

4. Tree diversity depending on environmental gradients promotes biomass stability via species asynchrony in China’s forest ecosystems

Author

Anchi Wu, Guoyi Zhou, Honglin He, Yann Hautier, Xuli Tang, Juxiu Liu, Qianmei Zhang, Silong Wang, Anzhi Wang, Luxiang Lin, Yiping Zhang, Zongqiang Xie, and Ruiying Chang

Subjects

Biodiversity, Climate, Forest age, Insuranceeffect, Soil nitrogen, Species asynchrony, Ecology, QH540-549.5

Abstract

There is mounting evidence that biodiversity promotes ecological stability in changing environments. However, understanding diversity–stability relationships and their underlying mechanisms across large-scale tree diversity and natural environmental gradients are still controversial and largely lacking. We used thirty-nine 0.12 ha long-term permanent forest plots spanning China’s various forest types to test the effects of multiple abiotic (climate, soil, age and topography) and biotic factors (taxonomic and structural diversity, functional diversity and community-mean traits, and species asynchrony) on biomass stability and its components (mean biomass and biomass variability) over time. We used multiple analytical methods to identify the best explanatory variables and complicated causal relationships for community biomass stability. Our results showed that species richness increased biomass stability by promoting species asynchrony. Structural and functional diversity had a weaker effect on biomass stability. Forest age and structural diversity increased mean biomass and biomass variability significantly and simultaneously. Communities dominated by tree species with high wood density had high biomass stability. Soil nitrogen enhanced biomass stability directly and indirectly through its effects on mean biomass. Soil nitrogen to phosphorus ratio increased biomass stability via increasing species asynchrony. Precipitation indirectly increased biomass stability by affecting tree diversity. Moreover, the direct and indirect effects of soil nutrients on biomass stability were greater than that of climate variables. Our results suggest that species asynchrony is the main mechanism proposed to explain the stabilizing effect of diversity on community biomass, supporting two mechanisms, namely, the biodiversity insurance hypothesis and complementary dynamics. Soil and climate factors also play an important role in shaping diversity–stability relationships. Our results provide a new insight into how tree diversity affects ecosystem stability across diverse community types and large-scale environmental gradients.

Published

2022

5. Soil moisture dominated the temporal dynamics of litter moisture content in subtropical forests: a 7-year observation in south China

Author

Xiaodong Liu, Yingjie Feng, Peiling Liu, Qianmei Zhang, Brian Njoroge, Qing Zhou, Xianhua Gan, Weiqiang Zhang, and Yuelin Li

Subjects

Litter moisture content, Standing litter, Litterfall, Environmental factors, Hydrological function, Physical geography, GB3-5030, Geology, QE1-996.5

Abstract

Study region: Dinghushan watershed, China. Study focus: The dynamics of litter moisture content play an important role in understanding the forest’s internal environmental changes, forest fire forecast and prediction of general forest health and so on. These characteristics have not been extensively analyzed in lower subtropical China and therefore, three typical subtropical evergreen forest ecosystems, Pinus massoniana coniferous forest (PF), mixed conifer-broadleaf forest (CBF), and monsoon evergreen broadleaved forest (MBF), were chosen to explore the changes of the litter moisture content and its response to environmental factors. New hydrological insights for the region: Over a 7-year observation period, the mean annual litter moisture content was 72.0 ± 7.3%, 87.9 ± 11.3%, and 100.5 ± 15.7% for PF, CBF, and MBF respectively. The litter moisture content increased while the litter standing mass decreased after vegetation restoration. The litter moisture content in the three forests during the wet season was substantially higher than that in the dry season. Compared to the soil layer, the coefficient of variation of the litter moisture content during the dry and wet seasons was higher as compared to the topsoil (0–30 cm) water content, indicating the litter layer was more sensitive to changes in external environmental factors. Further analysis revealed that soil water content was the dominating factor controlling the dynamics of litter moisture content both during the dry and wet seasons. Analyses of the litter moisture can be very useful in forests around the world as a guideline in indicating the change in a forest’s environment.

Published

2022

6. Environmental remediation promotes the restoration of biodiversity in the Shenzhen Bay Estuary, South China

Author

Hualin Xu, Ke Liu, Tianzhu Ning, Gu Hunag, Qianmei Zhang, Yuelin Li, Mengqi Wang, Yiming Fan, Weili An, Lingbo Ji, Qinfeng Guo, and Hai Ren

Subjects

coastal city, sewage treatment, ecological restoration, mangrove, bird diversity, Ecology, QH540-549.5

Abstract

Rapid urbanization has greatly changed land-use patterns in many estuarine areas around the world, including the Guangdong–Hong Kong–Macao Greater Bay Area (GBA). In GBA, this has resulted in serious water pollution and ecosystem degradation. To control water pollution and to restore the integrity and health of the estuary ecosystem, Shenzhen City has conducted comprehensive ecological management and restoration in Shenzhen Bay since 2007. During the restoration, the natural vegetation consisting of mangroves, semi-mangroves, wetland plants, and terrestrial plants was restored from the bund to the inner bank of the Fengtang River, which flows into the bay. Rain and sewage flow diversion systems were established. The non-point source and point-source sewage are now treated in municipal sewage treatment plants, and the treated water naturally flows through the constructed wetland, and then through a natural wetland, restored natural embankment, and finally through mangrove communities; this step-wise flow substantially improves water quality. The restoration of habitats and the reintroduction of indigenous plants has increased animal and microbial diversity and has supported the establishment of a complex and stable food web. With water purification and habitat restoration, the number of alien invasive plants in the estuarine ecosystem has decreased, and the diversity of native species of birds, fish, macrobenthos, amphibians, and reptiles has increased. These improvements indicate that human beings and nature can coexist in support of the sustainable development of Shenzhen City.

Published

2022

7. An Interannual Comparative Study on Ecosystem Carbon Exchange Characteristics in the Dinghushan Biosphere Reserve, a Dominant Subtropical Evergreen Forest Ecosystem

Author

Brian Njoroge, Yuelin Li, Shimin Wei, Ze Meng, Shizhong Liu, Qianmei Zhang, Xuli Tang, Deqiang Zhang, Juxiu Liu, and Guowei Chu

Subjects

Dinghushan, CO2 fluxes, Michaelis-Menten model, physiological process model, carbon sequestration, Plant culture, SB1-1110

Abstract

Compared with other forest systems, research interest in the potential for a stronger ecosystem carbon sequestration of evergreen forests throughout subtropical China has greatly increased. The eddy covariance technique is widely employed to determine accurate forest-atmosphere carbon dioxide (CO2) flux, which is subsequently used to determine forest ecosystem carbon exchange characteristics. The Dinghushan Biosphere Reserve, a subtropical monsoon evergreen broad-leaved forest, is a suitable study area due to its warm and humid climate (compared with other regions within the same latitude), consequently playing a role in the carbon cycle in the region. For this study, we hypothesized that the forest land in this region generally acts as a carbon sink, and that its carbon sequestration capacity increases over time despite the influence of climatic factors. Here, we compared net CO2 flux data derived from the eddy covariance technique over an 8-year study window. Additionally, we ascertained the effects of various environmental factors on net CO2 flux, while also using the Michaelis–Menten model and a physiologically based process model to track and report on ecosystem carbon exchange characteristics. We observed seasonal trends in daily ecosystem flux, indicative of sensitivity to climatic factors, such as air temperature, precipitation, and sunlight. The carbon sequestration capacity of the region exhibited seasonal variability, increasing from October to March (−264 g C m−2 year−1, i.e., 48.4%) while weakening from April to September (−150 g C m−2 year−1, i.e., 40.4%) on average. The net ecosystem exchange (NEE) rate varied from −518 to −211 g C m−2 year−1; ecosystem respiration (Re) varied from 1,142 to 899 g C m−2 year−1; and gross primary production (GPP) varied from 1,552 to 1,254 g C m−2 year−1. This study found that even though the Dinghushan Biosphere Reserve generally acts as a carbon sink, its carbon sequestration capacity did not increase significantly throughout the study period. The techniques (models) used in this study are suitable for application in other ecosystems globally, which can aid in their management and conservation. Finally, the Dinghushan Biosphere Reserve is both an exemplary and a model forest system useful in exploring CO2 absorption and sequestration from the atmosphere.

Published

2021

8. Effects of Typhoon Mangkhut on a Monsoon Evergreen Broad-Leaved Forest Community in Dinghushan Nature Reserve, Lower Subtropical China

Author

Yuelin Li, Brian Mwangi, Shun Zhou, Shizhong Liu, Qianmei Zhang, Juxiu Liu, Guowei Chu, Xuli Tang, Deqiang Zhang, Shimin Wei, Zhiyang Lie, Ting Wu, Chen Wang, Guangfei Yang, and Ze Meng

Subjects

Dinghushan Nature Reserve, typhoon Mangkhut, community composition and structure, biomass, monsoon evergreen broad-leaved forest, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Sensitivity to climate change is one of the key features of the Dinghushan National Nature Reserve that is located in the lower subtropical China. Having faced typhoon Mangkhut in 2018, there emerged a need to study the effects that the typhoon had on the evergreen broad-leaved forest community in Dinghushan. The forest composition data for 2015, 2018, and 2020 was used in this study. The aim was to establish a scientific basis for the restoration of natural forests that have the ability to withstand strong weather phenomena such as typhoons and the hypothesis stated that typhoon Mangkhut had a long-term detrimental effect on the forest community in Dinghushan forest. The results showed that trees that have a DBH of less than 5 cm and a height of less than 2 m were more prone to damage during a severe weather events. In 2015, there was a total of 5,682 trees per hectare while in 2018 there was a total of 5,022 trees per hectare showing a decline in the number of trees per hectare of 660 due to the typhoon. Number of trees in each DBH class, height class, total above ground dry weight and average tree height was also lower in 2018 as compared to 2015 and 2020. The species abundance was also adversely affected with a loss of 672 species per hectare in 2018 compared to 2015. In 2020, about 83% of all trees had a DBH of less than 5 cm and an average height of 3.8 m making up a large proportion of trees that could be damaged if another storm occurred of similar or greater magnitude as the one that hit the region in 2018. Of interest was the forests remarkable ability to bounce back as there is an increase in biomass when 2018 is compared to 2020. The results support the hypothesis of the study. It is therefore of utmost importance that strategies be put in place to protect this ecosystem and others of a similar nature, by employing the use of natural forests that have great resilience against typhoons.

Published

2021

9. Bryophyte diversity is related to vascular plant diversity and microhabitat under disturbance in karst caves

Author

Hai Ren, Faguo Wang, Wen Ye, Qianmei Zhang, Taotao Han, Yao Huang, Guowei Chu, Dafeng Hui, and Qinfeng Guo

Subjects

Plant diversity, Habitat heterogeneity, Light and water status, Soil nutrient, Restoration, Ecology, QH540-549.5

Abstract

Plant diversity, habitat properties, and their relationships in karst caves remain poorly understood. We surveyed vascular plant and bryophyte diversities and measured the habitat characteristics in six karst caves in south China with different disturbance histories (one had been disturbed by poultry feeding, three had been disturbed by tourism, and two were undisturbed). The plant diversity differences among the six caves were analyzed using cluster analysis, and the relationships of plant diversity and microhabitat were assessed using canonical correspondence analysis. We found a total of 43 angiosperm species from 27 families, 20 lycophyte and fern species from 9 families, and 20 species of bryophytes from 13 families in the six caves. Habitat characteristics including light intensity, air relative humidity, air temperature, and soil properties varied among the caves. The plant diversity in karst caves was not rich, but the species composition was unique. The caves with high disturbance had the lowest species richness, numbers of individuals, and Shannon-Wiener diversity indices but the highest Simpson’s dominance indices. The caves with less disturbance had the highest numbers of species, numbers of individuals, and Shannon-Wiener diversity indices but the lowest Simpson’s dominance indices. The disturbed caves were often dominated by drought-tolerant, tenacious mosses (bryophytes), while the relatively undisturbed caves contained abundant liverworts (bryophytes), which were better adapted to humid environments. Plant diversity in karst caves was closely related to habitat heterogeneity, light and water status, and nutrient availability. Tourism and poultry farming were associated with the degradation of vegetation in some karst caves. Protecting and restoring bryophytes might facilitate the settlement, growth, and succession of vascular plants in karst caves. Bryophytes can be used as indicators of overall plant diversity and restoration status in karst caves.

Published

2021

10. RANK Deficiency Ameliorates Podocyte Injury by Suppressing Calcium/Calcineurin/ NFATc1 Signaling

Author

Shun Liang, Hong Zhang, Yue Du, Caoshuai Dou, Shuangxin Liu, Li Zhang, Yuanhan Chen, Ruizhao Li, Jianchao Ma, Zhuo Li, Ting Lin, Xinchen Zhao, Qianmei Zhang, Wenjian Wang, Zhiming Ye, Xinling Liang, Wei Shi, and Bin Zhang

Subjects

Podocyte, Injury, Receptor activator of NF-κB, Nuclear factor of activated T cells, Dermatology, RL1-803, Diseases of the circulatory (Cardiovascular) system, RC666-701, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Background/Aims: Podocyte injury and loss contribute to proteinuria, glomerulosclerosis and eventually kidney failure. Receptor activator of NF-κB (RANK) belongs to the TNF receptor superfamily, which plays a key role in the pathogenesis of podocyte injury. However, the mechanism underlying the effect of RANK in podocyte injury remains unclear. Here, we sought to explore the possible molecular mechanisms involved in podocyte injury caused by RANK. Methods: Immortalized mouse podocytes were treated with siRNA targeting RANK for 48 h or ionomycin for 24 h before harvest. Western blot, quantitative RT-PCR and immunofluorescence staining were used to evaluate the expression and function of RANK, nuclear factor of activated T cells c1 (NFATc1), transient receptor potential cation channel, subfamily C, member 6 (TRPC6) and calcineurin in podocytes. The Calcineurin Cellular Activity Assay kit was used to detect the phosphatase activity of calcineurin in cultured podocytes. A Ca2+ influx assay was performed to analyze alterations in Ca2+ entry under different conditions. Co-immunoprecipitation assays were used to observe the relationship between RANK and TRPC6. Results: RANK mRNA and protein expression were markedly increased in injured podocytes (ionomycin stimulation). Further study found that translocation of NFATc1 to the nucleus was significantly reduced after knocking down RANK by siRNA. Meanwhile, we also demonstrated that loss of RANK suppressed the phosphatase activity of calcineurin and attenuated the ionomycin-induced increase in Ca2+ influx. In addition, we showed that RANK knockdown in cultured podocytes decreased TRPC6 protein expression. Co-immunoprecipitation experiments suggested that RANK binds to TRPC6 and that ionomycin enhanced the binding of RANK to TRPC6. Conclusion: Our findings demonstrated that RANK deficiency ameliorates podocyte injury by suppressing calcium/calcineurin/NFATc1 signaling, which may present a promising target for therapeutic intervention.

Published

2018

11. Spatial and temporal patterns of carbon storage in forest ecosystems on Hainan island, southern China.

Author

Hai Ren, Linjun Li, Qiang Liu, Xu Wang, Yide Li, Dafeng Hui, Shuguang Jian, Jun Wang, Huai Yang, Hongfang Lu, Guoyi Zhou, Xuli Tang, Qianmei Zhang, Dong Wang, Lianlian Yuan, and Xubing Chen

Subjects

Medicine, Science

Abstract

Spatial and temporal patterns of carbon (C) storage in forest ecosystems significantly affect the terrestrial C budget, but such patterns are unclear in the forests in Hainan Province, the largest tropical island in China. Here, we estimated the spatial and temporal patterns of C storage from 1993-2008 in Hainan's forest ecosystems by combining our measured data with four consecutive national forest inventories data. Forest coverage increased from 20.7% in the 1950s to 56.4% in the 2010s. The average C density of 163.7 Mg C/ha in Hainan's forest ecosystems in this study was slightly higher than that of China's mainland forests, but was remarkably lower than that in the tropical forests worldwide. Total forest ecosystem C storage in Hainan increased from 109.51 Tg in 1993 to 279.17 Tg in 2008. Soil C accounted for more than 70% of total forest ecosystem C. The spatial distribution of forest C storage in Hainan was uneven, reflecting differences in land use change and forest management. The potential carbon sequestration of forest ecosystems was 77.3 Tg C if all forested lands were restored to natural tropical forests. To increase the C sequestration potential on Hainan Island, future forest management should focus on the conservation of natural forests, selection of tree species, planting of understory species, and implementation of sustainable practices.

Published

2014

12. Rainfall redistribution in subtropical Chinese forests changes over 22 years.

Author

Wanjun Zhang, Scholten, Thomas, Seitz, Steffen, Qianmei Zhang, Guowei Chu, Linhua Wang, and Juxiu Liu

Abstract

Rainfall redistribution through the vegetation canopy plays a key role in the hydrological cycle. Although there have been studies on the heterogeneous patterns of rainfall redistribution in some ecosystems, the understanding of this process in different stages of forest succession remains insufficient. Therefore, this study investigated the change tendency of rainfall redistribution and rainwater chemistry in a subtropical succession forest area in South China, based on 22 years (2001-2022) of monitoring 740 valid rainfall events. Results showed that at the event scale throughfall ratio showed in order broadleaf forest (BF) < mixed forest (MF) < pine forest (PF), and stemflow ratio showed in order BF > MF > PF. At the interannual scale, annual gross rainfall considerably shifted over time, which directly induced the variable accumulation of annual throughfall and annual stemflow. In the last 22 years, annual variability of throughfall presented in order MF (CV, 9.7 %) < BF (15.6 %) < PF (16.1 %), and annual variability of stemflow presented in order MF (CV, 38.6 %) < PF (50.9) < BF (56.2 %). The spatial variability of stemflow was always greater than that of throughfall. Besides, the difference of rainwater chemistry fluxes (TN, TP and K+) among the three forest types were found and they changed over time. Throughfall was characterized with high chemistry fluxes compared to open rainfall followed by stemflow. On average, TN and TP fluxes of throughfall presented in order BF < MF < PF, while K+ flux of throughfall presented in order BF > MF > PF. The above results indicated that the patterns of rainfall redistribution often changed over time. The event-scale accumulation of throughfall and stemflow potentially induced the interannual-scale variability. Both water volume and chemistry of throughfall and stemflow depended on the effect of rainfall and forest factors. This study provided insight into the rainfall redistribution process by linking the long-term changing of rainfall pattern and subtropical forest succession sequence. [ABSTRACT FROM AUTHOR]

Published

2023

13. Long-term changes of water acidity in an intact forested watershed in south China

Author

Yuelin Li, Qi-feng Mo, Ying-jie Feng, Xian-hua Gan, Xiao-dong Liu, Qianmei Zhang, Guowei Chu, Wei-qiang Zhang, and Qing Zhou

Subjects

Forest floor, Global and Planetary Change, Geography, Planning and Development, Geology, Subtropics, Humus, Agronomy, Temperate climate, Environmental science, Acid rain, Precipitation, Surface runoff, Groundwater, Nature and Landscape Conservation, Earth-Surface Processes

Abstract

Acid rain is a global environmental issue and causes serious adverse impacts on natural ecosystems and human health. The acid rain and its subsequent impacts have been extensively studied in temperate regions and in big cities globally, but the monitoring of acid rain in non-urban areas in subtropical region is still limited. Here, we analyze 18 years of water acidity observations from a non-urban site in western Pearl River Delta region, south China. From 2000 to 2018, annual mean precipitation pH values in the study site showed a marked increase (P

Published

2021

14. Tree Diversity, Structure and Functional Trait Identity Promote Stand Biomass Along Elevational Gradients in Subtropical Forests of Southern China

Author

Anchi Wu, Xuli Tang, Andi Li, Xin Xiong, Juxiu Liu, Xinhua He, Qianmei Zhang, Anqiang Dong, and Hongfeng Chen

Subjects

Atmospheric Science, Ecology, Paleontology, Soil Science, Forestry, Aquatic Science, Water Science and Technology

Published

2022

15. Receptor activator of NF-κB mediates podocyte injury in diabetic nephropathy

Author

Chun-Yu Deng, Zhiming Ye, Xia Chen, Caoshuai Dou, Yingzhen Wen, Zhiwen Lian, Wenjian Wang, Juan Hu, Sijia Li, Wei Shi, Zhuo Li, Ruizhao Li, Guibao Ke, Qianmei Zhang, Jianchao Ma, Ruyi Liao, Xueqin Chen, Lixia Xu, Ting Lin, Wei Dong, Li Zhang, Yue Du, Houqin Xiao, Yuanhan Chen, Bohou Li, Fengxia Zhang, Chaosheng He, Zhonglin Feng, Shuangshuang Zhu, Shuangxin Liu, Jie Xiao, Xingchen Zhao, Minghao Zheng, Xinling Liang, Su-Juan Kuang, and Hong Zhang

Subjects

0301 basic medicine, medicine.medical_specialty, 030232 urology & nephrology, Streptozocin, Proinflammatory cytokine, Podocyte, Diabetic nephropathy, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, Diabetes Mellitus, medicine, Albuminuria, Animals, Diabetic Nephropathies, Receptor, NADPH oxidase, Receptor Activator of Nuclear Factor-kappa B, biology, Podocytes, Activator (genetics), NF-κB, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, chemistry, Nephrology, biology.protein, P22phox

Abstract

Receptor activator of NF-κB (RANK) expression is increased in podocytes of patients with diabetic nephropathy. However, the relevance of RANK to diabetic nephropathy pathobiology remains unclear. Here, to evaluate the role of podocyte RANK in the development of diabetic nephropathy, we generated a mouse model of podocyte-specific RANK depletion (RANK-/-Cre T), and a model of podocyte-specific RANK overexpression (RANK TG), and induced diabetes in these mice with streptozotocin. We found that podocyte RANK depletion alleviated albuminuria, mesangial matrix expansion, and basement membrane thickening, while RANK overexpression aggravated these indices in streptozotocin-treated mice. Moreover, streptozotocin-triggered oxidative stress was increased in RANK overexpression but decreased in the RANK depleted mice. Particularly, the expression of NADPH oxidase 4, and its obligate partner, P22phox, were enhanced in RANK overexpression, but reduced in RANK depleted mice. In parallel, the transcription factor p65 was increased in the podocyte nuclei of RANK overexpressing mice but decreased in the RANK depleted mice. The relevant findings were largely replicated with high glucose-treated podocytes in vitro. Mechanistically, p65 could bind to the promoter regions of NADPH oxidase 4 and P22phox, and increased their respective gene promoter activity in podocytes, dependent on the levels of RANK. Taken together, these findings suggested that high glucose induced RANK in podocytes and caused the increase of NADPH oxidase 4 and P22phox via p65, possibly together with the cytokines TNF- α, MAC-2 and IL-1 β, resulting in podocyte injury. Thus, we found that podocyte RANK was induced in the diabetic milieu and RANK mediated the development of diabetic nephropathy, likely by promoting glomerular oxidative stress and proinflammatory cytokine production.

Published

2021

16. Biochemical and photosystem characteristics of wild-type and Chl b-deficient mutant in tree peony (Paeonia suffruticosa)

Author

Lixin Zhang, X.G. Hou, S. Li, Qianmei Zhang, J.Z. Wang, S.D. Chen, S.D. Liu, and Q.S. Chang

Subjects

0106 biological sciences, Physiology, Mutant, Plant Science, 01 natural sciences, Superoxide dismutase, Proline, Chlorophyll fluorescence, Photosystem, photosynthetic capacity, yl1 mutant, biology, chlorophyll fluorescence, Chemistry, Paeonia suffruticosa, Wild type, Botany, 04 agricultural and veterinary sciences, modulated 820-nm reflection, biology.organism_classification, antioxidants, Biochemistry, Catalase, QK1-989, 040103 agronomy & agriculture, biology.protein, 0401 agriculture, forestry, and fisheries, 010606 plant biology & botany

Abstract

In order to explore the adaptive strategies of tree peony yl1 mutant in response to photooxidative stress, the changes of biochemical parameters, chlorophyll fluorescence, and the modulated 820-nm reflection of yl1 mutant and wild-type plants were compared. We found the activities of superoxide dismutase and catalase, the contents of soluble protein, proline, superoxide radicals, hydrogen peroxide, malondialdehyde, and relative electrical conductivity were significantly higher than those of the wild type. The photochemical efficiency of PSII significantly decreased, while the proportion of heat dissipation of yl1 mutant increased greatly. The donor and acceptor side and electron transfer of PSII were greatly inhibited. Meanwhile, the performance of PSI and coordination of two photosystems decreased markedly in yl1 mutant. The yl1 mutant could reduce the damage caused by photooxidative stress by increasing the activity of antioxidant enzymes, the content of some osmoregulatory substances, and the proportion of heat dissipation.

Published

2021

17. Typhoon Disturbance Induced More Branches and Changed the Proportion of Litterfall Components in a Subtropical Pine Forest

Author

Yingjie Feng, Xiaodong Liu, Xinyu Zhao, Qianmei Zhang, Njoroge Brain, and Weiqiang Zhang

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

18. Integration of carbon dioxide concentration in a simplified process-based model for evapotranspiration estimation in an old-growth forest

Author

Meiting Liu, Hailong Wang, Xiaodong Liu, Bingjun Liu, Xiaohong Chen, Qianmei Zhang, and Ze Meng

Subjects

Forestry, Management, Monitoring, Policy and Law, Nature and Landscape Conservation

Published

2022

19. Multiple Drivers of Biomass Change in Subtropical Natural Forests

Author

Andi Li, Juxiu Liu, Qianmei Zhang, Hongfeng Chen, Xuli Tang, Anchi Wu, Xinhua He, and Xin Xiong

Subjects

Agroforestry, Natural forest, Environmental science, Biomass, Subtropics

Abstract

Forest ecosystems play an important role in regulating the global carbon, a substantial portion of terrestrial carbon pool which is stored in biomass stocks. However, how multiple biotic (i.e. topography) and abiotic (biodiversity, stand structure, and functional traits) influence forest biomass in natural forests, the relative important of these factors determine biomass is still controversial for subtropical natural forests. We used forest inventory data from nine 1-ha plots at different altitude gradients in China’s subtropical forests. We used multiple analyse to quantify the relative importance of multiple facets of diversity, key functional traits, stand structural attributes, and topography variables in determining forest biomass. We found that multiple facets of diversity and stand structure variables enhances biomass. Specifically, large-diameter trees had a strong positive effect on biomass and were the most important factor in determining biomass. Plant functional traits were closely related to biomass. Community-weighted mean value (CWM) of maximum height positively correlated with biomass, but CWM of wood density negatively correlated biomass. Topographic factors including elevation and slope, had a positive effect on biomass. Moreover, among the aforementioned four types of variables, stand structure had the greatest impact on biomass and is linked to diversity-biomass relationship. Topography mainly indirectly affected biomass by altering multiple diversity and stand structure. Functional traits also directly and indirectly affected biomass. Overall, these results support niche complementarity effect and mass-ratio hypothesis. Our results indicate that biodiversity is essential for maintaining ecosystem functions of species-rich subtropical natural forests. Further, adjusting stand structure may be an effective forest management approach to increase forest carbon storage.

Published

2021

20. Soil moisture drives microbial controls on carbon decomposition in two subtropical forests

Author

Gangsheng Wang, Wenjuan Huang, Deqiang Zhang, Tianfeng Han, Xiaodong Liu, Qianmei Zhang, Guoyi Zhou, and Melanie A. Mayes

Subjects

Biogeochemical cycle, Moisture, Environmental change, Soil Science, Soil science, 04 agricultural and veterinary sciences, Subtropics, Soil carbon, complex mixtures, Microbiology, Decomposition, 040103 agronomy & agriculture, Litter, 0401 agriculture, forestry, and fisheries, Environmental science, sense organs, Water content

Abstract

Knowledge of microbial mechanisms is critical to understand Earth's biogeochemical cycle under climate and environmental changes. However, large uncertainties remain in model simulations and predictions due to the lack of explicit parameterization of microbial data and few applications beyond the laboratory. In addition, most experimental and modeling studies of warming-induced changes in soil carbon (C) focus on temperature sensitivity, neglecting concomitant effects of changes in soil moisture. Soil microbes are sensitive to moisture, and their responses can dramatically impact soil biogeochemical cycles. Here we represent microbial and enzymatic functions in response to changes in moisture in the Microbial-ENzyme Decomposition (MEND) model. Through modeling with long-term field observations from subtropical forests, we demonstrate that parameterization with microbial data in addition to respiration fluxes greatly increases confidence in model simulations. We further employ the calibrated model to simulate the responses of soil organic C (SOC) under multiple environmental change scenarios. The model shows significant increases in SOC in response to decreasing soil moisture and only minor changes in SOC in response to increasing soil temperature. Increasing litter inputs also cause a significant increase in SOC in the pine forest, whereas an insignificant negative effect is simulated in the broadleaf forest. We also demonstrate the co-metabolism mechanism for the priming effects, i.e., more labile inputs to soil could stimulate microbial and enzymatic growth and activity. Our study provides strong evidence of microbial control over soil C decomposition and suggests the future trajectory of soil C may be more responsive to changes in soil moisture than temperature, particularly in tropical and subtropical environments.

Published

2019

21. Changes in defense traits of young leaves in subtropical forests succession

Author

Qinfeng Guo, Qianmei Zhang, Hai Ren, Taotao Han, Jun Wang, and Huilin Yi

Subjects

0106 biological sciences, Ecology, fungi, Biodiversity, food and beverages, Plant Science, Ecological succession, Subtropics, Biology, 010603 evolutionary biology, 01 natural sciences, Trichome, Plant ecology, Trait, Plant defense against herbivory, Adaptation, 010606 plant biology & botany

Abstract

Plants develop diverse adaptive traits in changeable environments, yet whether plant defense traits change during succession remains unclear. In this study, we investigated the young leaf physical traits (i.e., upright orientation of leaves, trichomes, an enhanced cuticle, and a multilayered epidermis) and leaf color trait (i.e., red pigmentation) of dominant plants in three subtropical forests. These forests included a pioneer forest, a mixed coniferous-broadleaved forest, and a monsoon-evergreen broadleaved forest representing early, middle, and later successional stages, respectively. Our results show that the red color trait in young leaves is related to anti-herbivory defense, and the percentage of species with red young leaves is higher in later than in early succession. Physical defense tends to be weaker for red young leaves than for green young leaves in early and middle successions. In addition, the number of defense traits of young leaves increases with succession. We speculate that young leaves in subtropical forests depend increasingly on multiple defense traits during succession because of the increased biotic stresses and environmental complexity in later succession.

Published

2019

22. Progress of implementation on the Global Strategy for Plant Conservation in (2011–2020) China

Author

Peter Wyse Jackson, Hai Ren, Ju Zhou, Lina Zhao, Weibang Sun, Hong Liu, Qinfeng Guo, Paul Smith, Qianmei Zhang, Joachim Gratzfeld, Xiangying Wen, Suzanne Sharrock, Yonghong Hu, Hongfang Lu, Zhiyun Ouyang, Haigen Xu, Xiaohua Jin, Hongxiao Liu, Jinshuang Ma, Haining Qin, Zhixiang Zhang, and Yan Zeng

Subjects

0106 biological sciences, 010604 marine biology & hydrobiology, Introduced species, Global strategy, 010603 evolutionary biology, 01 natural sciences, Conservation, Geography, Disturbance (ecology), Threatened species, Vegetation type, China, Environmental planning, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Plant diversity

Abstract

Plants are essential resources for the earth and human survival. Many plant species are threatened by human disturbance and are now in danger of extinction. The Global Strategy for Plant Conservation (GSPC) seeks to halt the continuing loss of plant diversity and species across the globe. China endorsed the GSPC in 2002, and launched a national plant conservation strategy related to the GSPC in 2008. This paper assesses the progress of GSPC implementation in China. The results show that Targets 1, 2, 4, 5, and 7 of the GSPC were achieved in China before 2018, and substantial progress has been made toward meeting Targets 3, 8, 9, 14, and 16 by 2020. Limited progress has been made so far in reaching Targets 6, 10, 11, 12, 13, and 15. Although GSPC implementation has promoted the conservation and restoration of plant diversity in China, China needs to scale up and accelerate its actions related to conserving and/or restoring on both ecological region and vegetation type dimensions in the long run, including integrated in and ex situ native species recovery programs.

Published

2019

23. Morphological, anatomical and physiological traits of Euryodendron excelsum as affected by conservation translocation (augmentation vs. conservation introduction) in South China

Author

Qinfeng Guo, Hai Ren, H.L. Yi, X.Y. Wen, Hong Liu, Jun Wang, and Qianmei Zhang

Subjects

0106 biological sciences, Specific leaf area, Physiology, fungi, Endangered species, food and beverages, 04 agricultural and veterinary sciences, Plant Science, Biology, Evergreen, biology.organism_classification, Photosynthesis, 01 natural sciences, lcsh:QK1-989, Euryodendron excelsum, Light intensity, Habitat, lcsh:Botany, Spongy tissue, Botany, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, assisted colonisation, morphological response, physiological response, reintroduction, 010606 plant biology & botany

Abstract

Euryodendron excelsum is a rare and endangered evergreen tree in South China. We conducted two experimental translocations (augmentation and conservation introduction) on this species and assessed morphological, anatomical and physiological traits of leaves after translocation. The introduction plants showed smaller specific leaf area, less developed palisade tissues, smaller palisade/spongy tissue ratio, stomata density and anthocyanin content, lower values of maximal quantum yield of PSII photochemistry, photochemical quenching coefficient, net photosynthetic rate, light-saturated net photosynthetic rate, light-saturation point, but higher light-compensation point. These differences in traits help explain why augmented plants grew faster than introduced plants. We found that E. excelsum can adapt to wide ranges of light intensity and water availability, including conditions encountered at the introduction site. Our findings suggest that some endemic and endangered plants with narrow distribution may adapt to different habitat conditions by rapidly altering their morphological, anatomical, and physiological traits.

Published

2019

24. Plant diversity and species turnover co-regulate soil nitrogen and phosphorus availability in Dinghushan forests, southern China

Author

Juxiu Liu, Xujun Liu, Qianmei Zhang, Guowei Chu, Shizhong Liu, Guoyi Zhou, Deqiang Zhang, and Na-Dan Tan

Subjects

0106 biological sciences, Phosphorus, fungi, Soil Science, chemistry.chemical_element, Plant physiology, 04 agricultural and veterinary sciences, Plant Science, Soil carbon, Biology, 01 natural sciences, Basal area, chemistry, Agronomy, Forest ecology, 040103 agronomy & agriculture, Litter, 0401 agriculture, forestry, and fisheries, Composition (visual arts), Ecosystem, human activities, 010606 plant biology & botany

Abstract

The interaction between plants and soil is an important internal driver of ecosystem evolution. Many studies have reported the unidirectional effects of soil nutrients on plant diversity and species turnover. However, there are still many gaps in our knowledge about how plant diversity and species turnover feedback to soil nutrients. In the present study, three forest plots with different species composition and diversity were created through artificial disturbance in the same stand origin forest, and their long-term dynamics were observed. We identified underlying mechanisms of how plant diversity (Shannon-Wiener index) and species turnover (Bray-Curtis dissimilarity) affect soil total nitrogen (TN), total phosphorus (TP), available nitrogen (AN), and available phosphorus (AP). Plant diversity was associated with soil TN, TP, AN, and AP concentrations (P

Published

2021

25. Mapping forest type and age in China's plantations

Author

Youxin Ma, Jingyun Fang, Shirong Liu, Shenggong Li, Guirui Yu, Shizhong Liu, Juxiu Liu, Qianmei Zhang, Shijie Han, Guoyi Zhou, Guowei Chu, Deqiang Zhang, Yuelin Li, Keping Ma, Hongrun Zhao, Sheng Du, Zhen Yu, Gengxu Wang, Junhua Yan, Xuli Tang, and Wantong Wang

Subjects

Environmental Engineering, Forest type, 010504 meteorology & atmospheric sciences, National inventory, Forest plantation, National forest inventory, Forestry, 010501 environmental sciences, 01 natural sciences, Pollution, Stock dynamics, Geography, Forest age, Environmental Chemistry, China, Waste Management and Disposal, Stock (geology), 0105 earth and related environmental sciences

Abstract

Forest age serves as an essential factor in determining the accuracy of historical and future carbon (C) uptake quantifications, which is especially critical for China since the forest C stock dynamics are sensitive to the fast-growing, young-age plantations. However, a spatially explicit forest age maps with specific focus on forest plantations is not available yet. In this study, we developed a 1-km resolution age and type maps of forest plantations, and quantified their uncertainties spatially using field-measured data, national forest inventory data, digitalized forest maps, and remote sensing-based forest height maps. Simulation results showed forest plantations were 16.5 years old at national scale in 2005, which is close to the age of 16.6 years old derived from the 7th national inventory data using medium age in each forest plantation group with weighted area. Interestingly, we found that human management played an important role in forest age map reconstruction, which has not yet been considered in former studies. We also suggest that forest age and type maps should be used consistently in C stock simulations to avoid biases from mismatch information. Large uncertainty found in this study suggests further endeavors are required for improving the forest age and type maps.

Published

2020

26. Functional Composition Changes of a Subtropical Monsoon Evergreen Broad-Leaved Forest Under Environmental Change

Author

Juxiu Liu, Chumin Huang, Ze Meng, Deqiang Zhang, Shizhong Liu, Shun Zou, Xuli Tang, Guoyi Zhou, Qing Ye, Yuelin Li, Qianmei Zhang, Guowei Chu, and Ronghua Li

Subjects

0106 biological sciences, disturbance, 010504 meteorology & atmospheric sciences, Environmental change, Ecology, species composition, Climate change, Forestry, lcsh:QK900-989, Evergreen, 01 natural sciences, Photosynthetic capacity, climate change, Disturbance (ecology), Abundance (ecology), lcsh:Plant ecology, Environmental science, sense organs, Quadrat, Tropical and subtropical moist broadleaf forests, skin and connective tissue diseases, functional trait, 010606 plant biology & botany, 0105 earth and related environmental sciences, subtropical forest

Abstract

Long-term studies have revealed that forest species composition was shifting under environment change and disturbance induced by loss of large trees. Yet, few studies explicitly analyzed their impacts on composition concurrently. To learn more about impacts of environment change and disturbance on driving forest community, we investigated shifts in functional composition over past 24 years in an old-growth subtropical forest in southern China. We analyzed nine traits that are mainly related to leaf nutrients, photosynthetic capacity, hydraulic conductivity, and drought tolerance of plants and examined hypotheses: (1) The functional composition change over time was directional instead of random fluctuation, (2) drought-tolerant species increased their abundance under soil dryness, (3) both environmental change and disturbance related to changes of functional composition significantly, and (4) initial trait values of quadrats strongly influenced their subsequent change rates in quadrat level (10 &times, 10 m). We found that species composition had shifted to favor species with high leaf nutrient content, high photosynthesis rate, high hydraulic conductivity, low water-use efficiency, and high drought tolerance traits, which was due to soil dryness and disturbance. These two factors explained 47%&ndash, 58% of quadrats&rsquo, trait value changes together. Considering rapidly increasing stem density, this pattern may indicate ecological processes of which disturbance provided numerous recruits of resource-acquisition strategy species and soil dryness conducted a selecting effect on shaping composition in the forest. Additionally, quadrats with initial trait values at the far end of change direction shifted faster in three traits, which also indicated that functional composition changes in quadrats were directional and homogenized. Our results implied that environment change and accompanied disturbance events possibly drove species composition change along a different trajectory in the subtropical forest that experienced high climatic variability.

Published

2020

27. Reintroduction of Camellia changii Ye (Theaceae), a Critically Endangered Plant Endemic to Southern China

Author

Yan Zeng, Hai Ren, Yi Xu, Hongxiao Liu, Ju Zhou, and Qianmei Zhang

Subjects

Genetic diversity, biology, Reproductive success, ved/biology, Ecology, ved/biology.organism_classification_rank.species, food and beverages, Reproductive isolation, Evergreen, biology.organism_classification, Shrub, Critically endangered, Camellia changii, Theaceae, human activities

Abstract

Camellia changii Ye is an evergreen tall shrub or small tree with an extremely narrow distribution. There are only 1039 individuals in the field. The community characteristics, genetic diversity, and reproductive barriers of C. changii were studied. An ex situ living collection was established, which contained the entire wild genetic diversity by grafting techniques. Grafted plants were used to conduct augmentation and conservation introduction at two sites. All transplants grew successfully after 2 years at the two sites. We concluded that the out-of-range conservation introduction of C. changii did not reduce reproductive success compared with augmentation.

Published

2020

28. Conservation Translocation of the Rare and Endangered Tree Euryodendron excelsum in South China

Author

Zeyuan Zou, Yi Xu, Qianmei Zhang, Hai Ren, and Yiming Fan

Subjects

Euryodendron excelsum, Genetic diversity, Cutting, Ecology, Genetic variation, Endangered species, Conservation status, Small population size, Evergreen, Biology, biology.organism_classification

Abstract

Euryodendron excelsum H. T. Chang is an evergreen tree and a wild plant with extremely small populations. There are no more than 200 individuals of this species at ten isolated sites in the wild. The distribution, conservation status, ecological and biological characteristics, genetic diversity, reproductive biology and technique, seed biology, and cultivation of E. excelsum were studied. Reintroduction experiments including augmentation and translocation were conducted at Yangchun City and Guangzhou City of Guangdong, Hekou County, and Jinghong City of Yunna. The survival rate of cuttings was about 20%. Both the survival rate and growing speed of the augmentation individuals were greater than that of the translocated individuals. As a species with high level of genetic variation, rational collocation of subpopulation individuals of E. excelsum during reintroduction is needed.

Published

2020

29. Reintroduction of Primulina tabacum Hance, a Critically Endangered Calciphilous Perennial Herb, in Southern China

Author

Hai Ren, Xiangying Wen, Guohua Ma, and Qianmei Zhang

Subjects

Genetic diversity, Critically endangered, Habitat, biology, Reproductive biology, Botany, Primulina tabacum, Conservation status, biology.organism_classification, Gesneriaceae, Moss

Abstract

Primulina tabacum Hance (Gesneriaceae) is a calciphilous perennial herb. There are only eight wild populations with less than 10,000 individuals in Southern China. The distribution, conservation status, ecological and biological characteristics, genetic diversity, reproductive biology, tissue culture, and horticulture of P. tabacum were studied before reintroduction. Thousand in vitro-propagated P. tabacum plantlets were used to reintroduce at three of the plant’s historical and extant habitats. About 10% of the transplanted seedlings survived by 2012. More than 200 next-generation individuals were found in 2018. Facilitation between the species and mosses is important for the reintroduction success.

Published

2020

30. Conservation Translocations of Manglietia longipedunculata, a Critically Endangered Tree in South China

Author

Ju Zhou, Wenhui Zhu, Qianmei Zhang, Hai Ren, Hongxiao Liu, Xiaodong Cui, and Yan Zeng

Subjects

Transplantation, Critically endangered, South china, Reproductive success, Abiotic stress, Rare species, Botany, Chromosomal translocation, Manglietia longipedunculata, Biology

Abstract

There are only 11 individuals of Manglietia longipedunculata in the wild. The species is with low reproductive success and cannot produce fruit under natural conditions. Augmentation and translocation of the species were conducted by emerged and grafted seedlings in 2009. More than 64% of seedlings of both augmentation and translocation grew well after 5 years’ transplantation in both sites. Grafted seedlings had better growth rate and ecophysiological performance and reached flowering age earlier than the emerged ones. Therefore, grafted seedlings have superior adaptability to abiotic stress. Grafting may be a useful method for in situ augmentation and conservation translocations of this species and probably is also applicable to rare species having semblable reproductive disorders.

Published

2020

31. Landscape structure and network characteristics of the greenway system in Guangzhou City, South China

Author

Qianmei Zhang, Rongbo Xiao, Yongxian Su, Wenjun Shen, Xiuzhi Chen, Zhifeng Wu, Hai Ren, and Sangsang Fan

Subjects

0106 biological sciences, South china, Ecology, biology, Landscape structure, 010604 marine biology & hydrobiology, Management, Monitoring, Policy and Law, biology.organism_classification, Network connectivity, 010603 evolutionary biology, 01 natural sciences, Geography, Nature Conservation, Urbanization, Landscape ecology, Socioeconomics, Phoenix, China, Nature and Landscape Conservation

Abstract

Greenways help to conserve natural areas and improve the quality of life for residents, especially in cities experiencing rapid urbanization. In this study, we evaluated the landscape structure and network characteristics of Guangzhou’s greenway system and analyzed the potential effects of natural and socioeconomic factors on the construction of urban greenways. The total length and density of the greenway system in Guangzhou was 1319.3 km and 0.18 km/km2, respectively. The greenway density in the urban regions was > 1.5 km/km2, which met the optimal threshold requirement for an urban greenway system. Guangzhou’s greenway system had a total of 609 branches and 366 nodes, more than in Xiamen City (China) and Phoenix (AZ), which indicated a high level of network connectivity. The built-up area (area with residential, commercial, or industrial buildings) and the number of intersections of the transportation network were positively and linearly related (R2 = 0.46 and 0.78, respectively) to the length of Guangzhou’s greenways in each 1-km2 pixel grid. Population density (R2 = 0.47, p

Published

2018

32. RANK Deficiency Ameliorates Podocyte Injury by Suppressing Calcium/Calcineurin/ NFATc1 Signaling

Author

Wenjian Wang, Jianchao Ma, Li Zhang, Zhiming Ye, Ting Lin, Shuangxin Liu, Yue Du, Caoshuai Dou, Xinling Liang, Wei Shi, Zhuo Li, Bin Zhang, Xinchen Zhao, Hong Zhang, Qianmei Zhang, Ruizhao Li, Yuanhan Chen, and Shun Liang

Subjects

0301 basic medicine, lcsh:Diseases of the circulatory (Cardiovascular) system, Phosphatase, Podocyte, Injury, lcsh:RC870-923, TRPC6, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, Mice, Western blot, medicine, lcsh:Dermatology, Animals, RNA, Small Interfering, Receptor, Gene knockdown, Receptor activator of NF-κB, medicine.diagnostic_test, NFATC Transcription Factors, Receptor Activator of Nuclear Factor-kappa B, Chemistry, Podocytes, Calcineurin, General Medicine, lcsh:RL1-803, lcsh:Diseases of the genitourinary system. Urology, Cell biology, Nuclear factor of activated T cells, 030104 developmental biology, medicine.anatomical_structure, Nephrology, lcsh:RC666-701, Ionomycin, Wounds and Injuries, Calcium, Cardiology and Cardiovascular Medicine, Signal Transduction

Abstract

Background/Aims: Podocyte injury and loss contribute to proteinuria, glomerulosclerosis and eventually kidney failure. Receptor activator of NF-κB (RANK) belongs to the TNF receptor superfamily, which plays a key role in the pathogenesis of podocyte injury. However, the mechanism underlying the effect of RANK in podocyte injury remains unclear. Here, we sought to explore the possible molecular mechanisms involved in podocyte injury caused by RANK. Methods: Immortalized mouse podocytes were treated with siRNA targeting RANK for 48 h or ionomycin for 24 h before harvest. Western blot, quantitative RT-PCR and immunofluorescence staining were used to evaluate the expression and function of RANK, nuclear factor of activated T cells c1 (NFATc1), transient receptor potential cation channel, subfamily C, member 6 (TRPC6) and calcineurin in podocytes. The Calcineurin Cellular Activity Assay kit was used to detect the phosphatase activity of calcineurin in cultured podocytes. A Ca2+ influx assay was performed to analyze alterations in Ca2+ entry under different conditions. Co-immunoprecipitation assays were used to observe the relationship between RANK and TRPC6. Results: RANK mRNA and protein expression were markedly increased in injured podocytes (ionomycin stimulation). Further study found that translocation of NFATc1 to the nucleus was significantly reduced after knocking down RANK by siRNA. Meanwhile, we also demonstrated that loss of RANK suppressed the phosphatase activity of calcineurin and attenuated the ionomycin-induced increase in Ca2+ influx. In addition, we showed that RANK knockdown in cultured podocytes decreased TRPC6 protein expression. Co-immunoprecipitation experiments suggested that RANK binds to TRPC6 and that ionomycin enhanced the binding of RANK to TRPC6. Conclusion: Our findings demonstrated that RANK deficiency ameliorates podocyte injury by suppressing calcium/calcineurin/NFATc1 signaling, which may present a promising target for therapeutic intervention.

Published

2018

33. Advanced glycation end-products suppress autophagic flux in podocytes by activating mammalian target of rapamycin and inhibiting nuclear translocation of transcription factor EB

Author

Ruizhao Li, Qianmei Zhang, Shuangxin Liu, Ruyi Liao, Zhilian Li, Wei Shi, Li Zhang, Yuanhan Chen, Hong Zhang, Ting Lin, Xingchen Zhao, Xinling Liang, Xiaofan Tan, and Wei Dong

Subjects

0301 basic medicine, Chemistry, Autophagy, medicine.disease, Pathology and Forensic Medicine, law.invention, Cell biology, Podocyte, Blot, Diabetic nephropathy, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, Glycation, law, medicine, TFEB, Suppressor, PI3K/AKT/mTOR pathway

Abstract

Insufficient autophagy in podocytes is related to podocyte injury in diabetic nephropathy (DN). Advanced glycation end-products (AGEs) are major factors of podocyte injury in DN. However, the role and mechanism of AGEs in autophagic dysfunction remain unknown. We investigated autophagic flux in AGE-stimulated cultured podocytes using multiple assays: western blotting, reverse transcription-quantitative PCR, immunofluorescence staining, and electron microscopy. We also utilized chloroquine and a fluorescent probe to monitor the formation and turnover of autophagosomes. Mice of the db/db strain were used to model diabetes mellitus (DM) with high levels of AGEs. To mimic DM with normal levels of AGEs as a control, we treated db/db mice with pyridoxamine to block AGE formation. AGEs impaired autophagic flux in the cultured podocytes. Compared with db/db mice with normal AGEs but high glucose levels, db/db mice with high AGEs and high glucose levels exhibited lower autophagic activity. Aberrant autophagic flux was related to hyperactive mammalian target of rapamycin (mTOR), a major suppressor of autophagy. Pharmacologic inhibition of mTOR activity restored impaired autophagy. AGEs inhibited the nuclear translocation and activity of the pro-autophagic transcription factor EB (TFEB) and thus suppressed transcription of its several autophagic target genes. Conversely, TFEB overexpression prevented AGE-induced autophagy insufficiency. Attenuating mTOR activity recovered TFEB nuclear translocation under AGE stimulation. Co-immunoprecipitation assays further demonstrated the interaction between mTOR and TFEB in AGE-stimulated podocytes and in glomeruli from db/db mice. In conclusion, AGEs play a crucial part in suppressing podocyte autophagy under DM conditions. AGEs inhibited the formation and turnover of autophagosomes in podocytes by activating mTOR and inhibiting the nuclear translocation of TFEB. © 2018 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of Pathological Society of Great Britain and Ireland.

Published

2018

34. WWC1 promotes podocyte survival via stabilizing slit diaphragm protein dendrin

Author

Xinling Liang, Ting Lin, Bin Zhang, Yuanhan Chen, Hong Zhang, Li Zhang, Ruyi Liao, Ruizhao Li, Qianmei Zhang, Wenjian Wang, Zongshun Huang, Xingchen Zhao, Shuangxin Liu, and Wei Shi

Subjects

0301 basic medicine, dendrin, Cancer Research, podocyte, Diaphragm, 030232 urology & nephrology, Gene Expression, Nerve Tissue Proteins, Biochemistry, WWC1, Podocyte, 03 medical and health sciences, Mice, 0302 clinical medicine, Gene expression, Genetics, medicine, Animals, Molecular Biology, Cell Line, Transformed, Gene knockdown, biology, Dendrin, Podocytes, Protein Stability, apoptosis, Intracellular Signaling Peptides and Proteins, Articles, Phosphoproteins, Molecular biology, Cell biology, Transport protein, Blot, slit diaphragm, Protein Transport, 030104 developmental biology, medicine.anatomical_structure, Oncology, Apoptosis, Gene Knockdown Techniques, biology.protein, Slit diaphragm, Molecular Medicine, Carrier Proteins

Abstract

Previous studies have indicated that glomerular podocyte injury serves a crucial role in proteinuria during the process of chronic kidney disease. The slit diaphragm of podocytes forms the final barrier to proteinuria. Dendrin, a constituent of the slit diaphragm protein complex, has been observed to relocate from the slit diaphragm to the nuclei in injured podocytes and promote podocyte apoptosis. However, the exact mechanism for nuclear relocation of dendrin remains unclear. The expression of WWC1 in podocyte injury induced by lipopolysaccharides (LPS) or adriamycin (ADR) was detected by reverse transcription-quantitative polymerase chain reaction (RT-qPCR), western blotting and the immunofluorescence assay. The role of WWC1 in podocyte apoptosis was detected by knockdown of WWC1 and flow cytometry. The mRNA and protein expression levels of apoptosis-associated genes Bcl-2-associated X (Bax) and Bcl-2 were measured by RT-qPCR and western blotting. The impact of WWC1 on dendrin nucleus relocation in vitro in podocytes was further evaluated by knockdown of WWC1. Expression of WWC1 significantly decreased in injured podocytes in vitro. The loss-of-function assay indicated that knockdown of WWC1 gene in vitro promoted podocyte apoptosis, accompanied with increased levels of the pro-apoptotic protein Bax and decreased levels of the anti-apoptotic protein Bcl-2. Furthermore, the relocation of dendrin protein was significantly promoted by knockdown of the WWC1 gene. In conclusion, the study indicated that loss of WWC1 may contribute to podocyte apoptosis by inducing nuclear relocation of dendrin protein, which provided novel insight into the molecular events in podocyte apoptosis.

Published

2017

35. Biomimetic Magnetosomes as Versatile Artificial Antigen-Presenting Cells to Potentiate T-Cell-Based Anticancer Therapy

Author

Liping Zuo, Qianmei Zhang, Wei Wei, Peiling Wang, Guanghui Ma, Feng Li, Jin Xu, Xiaoyong Gao, Xiaobo Xi, and Hai-Yan Xie

Subjects

Materials science, medicine.medical_treatment, T cell, Antigen-Presenting Cells, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Mice, Artificial antigen presenting cells, Antigens, Neoplasm, Biomimetics, In vivo, medicine, Animals, Humans, Cytotoxic T cell, General Materials Science, Melanoma, General Engineering, Immunotherapy, 021001 nanoscience & nanotechnology, 0104 chemical sciences, CTL, medicine.anatomical_structure, Immunology, Cancer research, Click chemistry, Magnetosomes, 0210 nano-technology, Ex vivo, T-Lymphocytes, Cytotoxic

Abstract

Adoptive T-cell transfer for cancer therapy relies on both effective ex vivo T-cell expansion and in vivo targeting performance. One promising but challenging method for accomplishing this purpose is to construct multifunctional artificial antigen-presenting cells (aAPCs). We herein developed biomimetic magnetosomes as versatile aAPCs, wherein magnetic nanoclusters were coated with azide-engineered leucocyte membranes and then decorated with T-cell stimuli through copper-free click chemistry. These nano aAPCs not only exhibited high performance for antigen-specific cytotoxic T-cell (CTL) expansion and stimulation but also visually and effectively guided reinfused CTLs to tumor tissues through magnetic resonance imaging and magnetic control. The persisting T cells were able to delay tumor growth in a murine lymphoma model, while the systemic toxicity was not notable. These results together demonstrated the excellent potential of this "one-but-all" aAPC platform for T-cell-based anticancer immunotherapy.

Published

2017

36. High sensitive detection method for protein by combining the magnetic separation with cation exchange based signal amplification

Author

Dongxu Zhao, Ping Chen, Jin Xu, Qianmei Zhang, Hai-Yan Xie, Guihong Lu, and Ya-ru Liu

Subjects

Magnetic separation, Analytical chemistry, Nanoparticle, 02 engineering and technology, 010402 general chemistry, Immunomagnetic separation, 01 natural sciences, Signal, Fluorescence, Analytical Chemistry, Limit of Detection, Cations, Quantum Dots, Humans, Fluorescent Dyes, Detection limit, Chromatography, Immunomagnetic Separation, Chemistry, Repeatability, Prostate-Specific Antigen, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Magnetic Fields, Spectrometry, Fluorescence, Linear range, Nanoparticles, Kallikreins, 0210 nano-technology

Abstract

PSA is a member of low abundance proteins and serves as a critical indicator of the development and therapy efficacy for prostate cancer. In this study, a facile and high sensitive method was developed for serum PSA detection by integrating the immunomagnetic separation and cation exchange based signal amplification. On the basis of nanoparticle preparation and immunoprobe construction, PSA in serum was captured, separated by the immunomagnetic probe and then interacted with the quantum dots (QDs) based immunofluorescence probe; Zn2+ inside QDs was replaced by Ag+ within seconds, after which fluorescence signal was amplified by Fluozin-3, the Zn2+ responsive dye. Under optimized conditions, low detection limit (1.56 pg/mL), wide linear range (1.56–25 ng/mL) and good repeatability (intra-coefficient variation=3.18%) were achieved, which is superior to commercialized ELISA kit. These results demonstrated the potential of our high sensitive method for PSA detection in clinical.

Published

2017

37. Spatial heterogeneity in stand characteristics alters water use patterns of mountain forests

Author

Eun-Young Jung, John Tenhunen, Yuelin Li, Jing Cheng, Xuli Tang, Xiaodong Liu, Deqiang Zhang, Shizhong Liu, Guoyi Zhou, Yangxu Ou, Dennis Ochuodho Otieno, Qianmei Zhang, and Xiuzhi Chen

Subjects

0106 biological sciences, Canopy, Atmospheric Science, Global and Planetary Change, Stomatal conductance, 010504 meteorology & atmospheric sciences, Ecology, Vapour Pressure Deficit, Diameter at breast height, Microclimate, Forestry, Atmospheric sciences, 01 natural sciences, Canopy conductance, Spatial heterogeneity, Environmental science, Allometry, Agronomy and Crop Science, 010606 plant biology & botany, 0105 earth and related environmental sciences

Abstract

Mountain landscapes have complex and rugged topographies, with abrupt spatial and temporal changes in microclimate and soil properties, factors that directly affect tree growth and canopy processes. These may alter functional relationships over short spatial scales, rendering the use of allometry in scaling tree water use (TWU) from single trees to stand level less accurate. On the other hand, canopy processes, especially stomatal conductance are sensitive to the environmental conditions prevailing above the canopy. Given that these also change rapidly in a mountain landscape, we speculate that patterns of water use in a complex landscape are determined by the interaction between stand structure and canopy conductance. We examined forest stand structure, microclimate and sap flux density (Js) in two forest stands distributed at 50 m and 330 m elevations of the Dinghushan Mountain in south China to determine how they influence tree functional allometry for scaling up stand water use. Tree sapwood area (SA) was correlated with the diameter at breast height (DBH) irrespective of species and location within the forest catchment. The maximum sap flux density (Js) on a clear sunny day ranged from 18 ± 9 to 48 ± 12 and 25 ± 8 to 64 ± 11 g m−2 s−1 in the 330 m and 50 m forest stands, respectively. Differences among trees and between forest stands were significant (p

Published

2017

38. Climate and litter C/N ratio constrain soil organic carbon accumulation

Author

Shijie Han, Wenjuan Huang, Youxin Ma, Juxiu Liu, Wantong Wang, Philippe Ciais, Hai Ren, Shenggong Li, Yuelin Li, Xuli Tang, Stefano Manzoni, Guirui Yu, Junhua Yan, Shizhong Liu, Sheng Du, Deqiang Zhang, Guoyi Zhou, Keping Ma, Ping Zhou, Qianmei Zhang, Gengxu Wang, Xiankai Lu, Jingyun Fang, Xiuzhi Chen, Shan Xu, Guowei Chu, Chinese Academy of Sciences [Changchun Branch] (CAS), Nanjing University of Information Science and Technology (NUIST), South China Institute of Botany, Academia Sinia, Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), ICOS-ATC (ICOS-ATC), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Stockholm University, State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences, Chinese Academy of Sciences (CAS), Yangzhou University, Key Lab of Molecular Biophysics of Ministry of Education, College of Life Science and Technology, Huazhong University of Science and Technology [Wuhan] (HUST), Chinese Academy of Sciences [Beijing] (CAS), Institute of Applied Ecology, Sun Yat-Sen University [Guangzhou] (SYSU), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Department of Physical Geography, Stockholm University, Unité de recherche Biogéochimie des Ecosystèmes Forestiers (BEF), and Institut National de la Recherche Agronomique (INRA)

Subjects

010504 meteorology & atmospheric sciences, Soil texture, Climate change, Atmospheric sciences, 01 natural sciences, Carbon cycle, wetness index, Forest ecology, Ecosystem, annual litterfall, [SDU.ENVI]Sciences of the Universe [physics]/Continental interfaces, environment, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences, 2. Zero hunger, [SDU.OCEAN]Sciences of the Universe [physics]/Ocean, Atmosphere, Multidisciplinary, soil texture, 04 agricultural and veterinary sciences, Soil carbon, 15. Life on land, litter carbon-to-nitrogen, soil organic carbon, 13. Climate action, 040103 agronomy & agriculture, Litter, 0401 agriculture, forestry, and fisheries, Environmental science, Species richness, sense organs, Research Article

Abstract

Soil organic carbon (SOC) plays critical roles in stabilizing atmospheric CO2 concentration, but the mechanistic controls on the amount and distribution of SOC on global scales are not well understood. In turn, this has hampered the ability to model global C budgets and to find measures to mitigate climate change. Here, based on the data from a large field survey campaign with 2600 plots across China's forest ecosystems and a global collection of published data from forested land, we find that a low litter carbon-to-nitrogen ratio (C/N) and high wetness index (P/PET, precipitation-to-potential-evapotranspiration ratio) are the two factors that promote SOC accumulation, with only minor contributions of litter quantity and soil texture. The field survey data demonstrated that high plant diversity decreased litter C/N and thus indirectly promoted SOC accumulation by increasing the litter quality. We conclude that any changes in plant-community composition, plant-species richness and environmental factors that can reduce the litter C/N ratio, or climatic changes that increase wetness index, may promote SOC accumulation. The study provides a guideline for modeling the carbon cycle of various ecosystem scales and formulates the principle for land-based actions for mitigating the rising atmospheric CO2 concentration.

Published

2019

39. Comparison of morphological and physiological characteristics in two phenotypes of a rare and endangered plant, Begonia fimbristipula Hance

Author

Hong Liu, Y. Wang, Qinfeng Guo, Qianmei Zhang, X. W. Chen, L. Shao, Hai Ren, and J. Wang

Subjects

0106 biological sciences, 0301 basic medicine, Chlorophyll content, Physiology, Endangered species, Plant physiology, Plant Science, Biology, Photosynthesis, 01 natural sciences, Phenotype, Chloroplast, 03 medical and health sciences, Begonia fimbristipula, 030104 developmental biology, Botany, Epigenetics, 010606 plant biology & botany

Abstract

The rare and endangered plant, Begonia fimbristipula, shows red and green phenotypes, differentiated by a coloration of the abaxial leaf surface. In this study, we compared morphological and physiological traits of both phenotypes. The results showed that the red phenotype contained a significantly higher chlorophyll content, closer arrangement of chloroplasts, and a more developed grana. In addition, the red phenotype transferred significantly more light energy into the electron transport during the photoreaction. Similarly, the maximum photosynthetic rate, instantaneous water-use and light-use efficiencies of the red B. fimbristipula were all significantly higher than those of the green individuals. The differentiation between these two phenotypes could be caused by their different survival strategies under the same conditions; epigenetic variations may be in some correlation with this kind of phenotype plasticity. Red B. fimbristipula has an advantage in resource acquisition and utilization and possesses a better self-protection mechanism against changes in environmental conditions, therefore, it might adapt better to global climate change compared to the green phenotype. Further studies on the possible epigenetic regulation of those phenotypic differentiations are needed.

Published

2016

40. Influence of Vegetation Restoration on Soil Hydraulic Properties in South China

Author

Peiling Liu, Yuhang Dai, Qianmei Zhang, Guowei Chu, Xiao-dong Liu, and Ying-jie Feng

Subjects

Pinus massoniana, 010504 meteorology & atmospheric sciences, subtropical China, 01 natural sciences, vegetation recovery, Hydraulic conductivity, soil organic matter, 0105 earth and related environmental sciences, Hydrology, Topsoil, biology, soil water retention characteristics, Soil organic matter, saturated hydraulic conductivity, Forestry, lcsh:QK900-989, 04 agricultural and veterinary sciences, Vegetation, Evergreen, biology.organism_classification, Bulk density, lcsh:Plant ecology, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Soil horizon, Environmental science

Abstract

Over the past several decades, vegetation restoration has been carried out extensively in South China. Theoretically, the process of vegetation restoration is usually accompanied by changes in soil properties. However, the effects of vegetation restoration on soil hydraulic properties are poorly documented in humid subtropical China. In this study, we compared soil hydraulic properties across three undisturbed subtropical forests, i.e., Pinus massoniana forest (PF), mixed Pinus massoniana/broad-leaved forest (MF), and monsoon evergreen broad-leaved forest (BF), which represented a vegetation restoration sequence in South China. Our results showed that vegetation restoration decreased the bulk density while increasing the total porosity and the soil organic matter (SOM). The clay content and capillary porosity of soil in the middle- and late-recovery-stage forests were significantly higher than those in the early stage, which was consistent with the soil water-holding capacity. The saturated hydraulic conductivity (KS) values of BF were always significantly higher than those of the other forests. In the whole soil profile, the water-holding capacity and KS in the topsoil (above 30 cm depth) were significantly higher than those in the deep soil for all forests. Further analyses indicated that the SOM was the main factor that affected KS, and the relationship of them could be fitted by a linear equation. Overall, our study revealed vegetation restoration ameliorates soil hydraulic properties in humid subtropical China. And the role of SOM in improving soil hydraulic properties should be emphasized in future forest ecosystem management.

Published

2020

41. Levels and Clinical Significances of Glypican-5 in Urine of Type 2 Diabetic Nephropathy Cases

Author

Ruizhao, Li, Li, Zhang, Shu, Zhang, Huan, Yang, Bingfeng, Yao, Wei, Dong, Bin, Zhang, Yuanhan, Chen, Shuangxin, Liu, Xingchen, Zhao, Qianmei, Zhang, Wei, Shi, and Xinling, Liang

Subjects

Adult, Male, Middle Aged, Diabetes Mellitus, Type 2, Glypicans, Case-Control Studies, Disease Progression, Albuminuria, Humans, Diabetic Nephropathies, Female, Biomarkers, Aged, Glomerular Filtration Rate

Abstract

Increased glypican-5 expression in podocytes induces podocyte injury. Glypican-5 is shed into the urine, but its value in predicting progression of diabetic nephropathy (DN) has not been investigated.Glypican-5 was determined in spot urine from 20 type 2 diabetes mellitus (T2DM) patients, and 37 type 2 DN patients, and 20 healthy controls by enzyme-linked immunosorbent assay. The association of urinary glypican-5 with markers of renal function was evaluated.Urinary glypican-5 was significantly higher in DN patients than in both DM patients and controls. Glypican-5 level was not associated with baseline 24-hour urine protein/albumin excretion, serum creatinine, estimated glomerular filtration rate (eGFR), systolic blood pressure (SBP), or hemoglobin (Hb) A1c values in the DN patients. After 52 weeks follow-up, urinary glypican-5 level was associated with significant increases in urine protein and albumin excretion and a significant decline in eGFR in the DN patients. The decline in eGFR was independent of changes in urine protein and albumin excretion, SBP, or HbA1c. The results indicate that urinary glypican-5 was not only a biomarker but also contributed to the pathogenesis of DN in these patients.Urinary glypican-5 was specifically elevated in type 2 diabetes patients with DN and it was associated with disease progression. Urinary glypican-5 may serve as a useful non-invasive marker for the progression of DN.

Published

2018

42. Conservation introduction resulted in similar reproductive success of Camellia changii compared with augmentation

Author

Hai Ren, Yi Xu, Hui Yu, Jun Wang, Lianlian Yuan, Hong Liu, Qianmei Zhang, and Jian Luo

Subjects

0106 biological sciences, Ecology, Pollination, Reproductive success, Phenology, 010604 marine biology & hydrobiology, fungi, Rare species, Endangered species, Biodiversity, food and beverages, Plant Science, Biology, 010603 evolutionary biology, 01 natural sciences, Plant ecology, Horticulture, Pollinator, Botany

Abstract

Camellia changii is an endemic and rare species in China with an extremely narrow range. It is an insect-pollinated and self-incompatible species. We conducted two types of conservation translocation experiments, augmentation and conservation introduction at two sites, Ehuangzhang and Tianxin, respectively, using 4-year-old grafted C. changii reproductive-size plants. In addition to survival and growth rate, we compared reproductive traits including flowering phenology, pigment production in flowers, pollinator visiting frequency, and reproductive success (flower, fruit and seed productions) for 2 years at augmentation and introduction sites. The survival rate of transplanted plants was 100 % after 2 years at both sites. The individuals at the augmentation site grew significantly faster than those at the introduction site (P

Published

2015

43. The use of grafted seedlings increases the success of conservation translocations of Manglietia longipedunculata (Magnoliaceae), a Critically Endangered tree

Author

Hong Liu, Hong-Feng Chen, Wenchao Zhong, Jun Wang, Hai Ren, Lianlian Yuan, Lin Fu, Qinfeng Guo, Xiaodong Cui, Keming Yang, and Qianmei Zhang

Subjects

0106 biological sciences, Nature reserve, education.field_of_study, Extinction, biology, Ecology, 010604 marine biology & hydrobiology, Population, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Magnoliaceae, Critically endangered, Agronomy, Pollinator, Threatened species, education, Restoration ecology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

The distribution of the Critically Endangered tree Manglietia longipedunculata, of which there are only 11 known wild individuals, is restricted to the Nankunshan Nature Reserve in South China. The species is threatened with extinction because of its small number of individuals and the impediments to its reproduction (a combination of protogyny, a short period of stigma receptivity, and a lack of efficient pollinators). To reduce the risk of extinction we conducted two conservation translocation trials: one to augment the sole extant population, and the other 202 km north of the current range. The latter trial was a conservation introduction in which the goals were to increase the population and to buffer against the effects of climate change. We used emerged and grafted seedlings as translocation materials. We compared the survival, growth, and eco-physiological properties of emerged and grafted seedlings at the two sites. The survival rate and growth were higher for grafted seedlings than for emerged seedlings at both sites. Eco-physiological data indicated that grafted seedlings at both sites were as efficient or more so in light and water usage than wild individuals, whereas emerged seedlings were less efficient. Grafted seedlings attained the flowering stage sooner than emerged seedlings. Our study suggests that grafting can facilitate the augmentation and establishment of new populations of M. longipedunculata and perhaps of new populations of other threatened species facing reproductive difficulties and climate change.

Published

2015

44. Integrating Two Efficient and Specific Bioorthogonal Ligation Reactions with Natural Metabolic Incorporation in One Cell for Virus Dual Labeling

Author

Hai-Yan Xie, Li-Li Huang, Dongxu Zhao, Kejiang Liu, Jin Xu, Qianmei Zhang, and Houshun Zhu

Subjects

viruses, Vaccinia virus, 010402 general chemistry, 01 natural sciences, Virus, Analytical Chemistry, chemistry.chemical_compound, Capsid, Biosynthesis, Chlorocebus aethiops, Animals, Vero Cells, Fluorescent Dyes, chemistry.chemical_classification, Alanine, Staining and Labeling, 010405 organic chemistry, Biomolecule, 0104 chemical sciences, chemistry, Biochemistry, DNA, Viral, Click chemistry, Nucleic Acid Conformation, Click Chemistry, Azide, Bioorthogonal chemistry, DNA

Abstract

Though techniques in bioorthogonal chemistry and metabolic incorporation have been developed over the past decade, it remains difficult to integrate different bioorthogonal reactions or metabolic incorporations into one system. In this report, the protein and DNA metabolic incorporations were combined with two bioorthogonal reactions in one cell to develop a facile and universal method for virus dual labeling. Azide and vinyl groups were introduced into the proteins or genomes of viruses, respectively, through the intrinsic biosynthesis of biomolecules, which were subsequently fluorescently labeled via copper-free click chemistry or alkene−tetrazine ligation reactions during natural propagation process in host cells. Both the envelope viruses and the capsid viruses could be labeled, and the dual labeling efficiency was more than 80%. The labeled progeny virions were structurally intact and fully infectious, and their fluorescence was strong enough to track single virions.

Published

2017

45. Water-use efficiency of an old-growth forest in lower subtropical China

Author

Xiaodong Liu, Qianmei Zhang, Fengling Long, Ronghua Li, Jiyue Li, Lu Zhang, and Xiuzhi Chen

Subjects

China, 010504 meteorology & atmospheric sciences, Vapour Pressure Deficit, Eddy covariance, Forests, Atmospheric sciences, 01 natural sciences, Article, Carbon Cycle, Trees, Magnoliopsida, Water Cycle, Evapotranspiration, Ecosystem, Biomass, Precipitation, Water-use efficiency, 0105 earth and related environmental sciences, Tropical Climate, geography, Multidisciplinary, geography.geographical_feature_category, Moisture, Water, Humidity, 04 agricultural and veterinary sciences, Old-growth forest, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science

Abstract

Carbon and water fluxes are key properties of ecosystem processes and functions. A better understanding of their temporal dynamics and coupling mechanism between these fluxes will help us improve ecosystem management for mitigation as well as adaption to future climatic change. From 2003 to 2009, carbon and water flux data were obtained by the eddy covariance method over an old-growth forest in the lower subtropical China. The 7 years of observational data indicated that the water-use efficiency (WUE) of the old-growth forest exhibited weak inter-annual variability. The mean annual WUE ranged from 1.70 to 1.98 g C kg−1 H2O. An analysis of the effects of environmental variables on the monthly gross primary productivity (GPP) and evapotranspiration (ET) indicated that solar radiation, air temperature, precipitation and vapor pressure deficit (VPD) produced similar effects on the monthly GPP and ET, which suggests that photosynthesis and ET were similarly driven by the climatic variables. At the monthly scale, the WUE decreased significantly as the precipitation and soil moisture content increased. However, a significant correlation was not detected between the WUE and the VPD at the monthly scale. Moisture conditions tend to be major drivers of the ecosystem WUE.

Published

2017

46. Partitioning evapotranspiration in an intact forested watershed in southern China

Author

Qianmei Zhang, Ze Meng, Xiaodong Liu, Guoyi Zhou, Yuelin Li, Xiuzhi Chen, Jing Cheng, and Deqiang Zhang

Subjects

Hydrology, Watershed, Ecology, Soil evaporation, Southern china, Evapotranspiration, Eddy covariance, Environmental science, Aquatic Science, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Published

2014

47. Stand characteristics and water use at two elevations in a sub-tropical evergreen forest in southern China

Author

Dennis O. Otieno, Jing Cheng, Yangxu Ou, John Tenhunen, Qianmei Zhang, Eun-Young Jung, Xuli Tang, Yuelin Li, Shizhong Liu, and Deqiang Zhang

Subjects

Atmospheric Science, Global and Planetary Change, Ecology, Diameter at breast height, Microclimate, Forestry, Subtropics, Understory, Evergreen, Evergreen forest, Evapotranspiration, Environmental science, Agronomy and Crop Science, Transpiration

Abstract

The humid evergreen monsoon forests in China and other parts of Asia contribute significantly to the global and regional atmospheric circulation and hydrological cycle. The forests are, however, changing in structure due to increasing droughts, with potential impacts on forest hydrology. Long-term monitoring of these forests has also shown strong shifts in tree size distribution and tree species composition, changes that are likely to impose shifting functional demands on wood traits, leading to modification of the wood anatomy, stem sapflow and forest stand water use, as a consequence of changing hydraulic structures. We investigated the roles of tree size, species composition, elevation and microclimate on tree water use (TWU) and stand transpiration ( E c ) in two forest stands located at 20 m (Low-site) and 300 m (High-site) elevations in the Dinghushan Biosphere forest reserve in South China (2309′21″N–2311′30″N, 11230′39″E–11233′41″E). The reserve was established in 1956 to protect the natural monsoon evergreen evergreen-broad-leaved forests. Sap flux density ( SFD ) was measured for a period of 1 year on 34 trees belonging to five different species common to the two stands. Species abundance, social position of the crown and crown size, tree diameter at breast height (DBH) and the area of the conductive sapwood ( S A ) were measured in plots of 400 and 600 m 2 , respectively. TWU was calculated from SFD and S A , while E c was estimated from TWU and stand S A derived from DBH/ S A relationship. S A was positively and exponentially ( R 2 = 0.91; P SFD from the 34 trees, belonging to the five species ranged between 3.9 ± 0.6 and 16.4 ± 1.8 g cm 2 h −1 , while the mean TWU max ranged between 5 and 50 kg d −1 . Differences among individuals were significant ( P E c ) from trees with DBH >10 cm was 1.1 ± 0.6 and 0.9 ± 0.4 mm d −1 , accounting for 36–43% of the total soil water uptake at the ET and GH sites, respectively. Daily fluctuations in SFD and E c were determined by VPD and PAR. Despite the low TWU and E c from trees with DBH >10 cm, the total potential evapotranspiration ( E T ) from the forest was estimated at 3.6 mm d −1 , which is within the range for most tropical forests. It is likely that the understory, with DBH

Published

2014

48. Advances in the reintroduction of rare and endangered wild plant species

Author

Qianmei Zhang, Hai Ren, Shuguang Jian, Hongfang Lu, and Hongxiao Liu

Subjects

Conservation of Natural Resources, Extinction, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Ecology, Climate Change, Endangered Species, Endangered species, Biodiversity, Genetic Variation, Species translocation, Plants, Biology, General Biochemistry, Genetics and Molecular Biology, Disturbance (ecology), Environmental Science(all), Plant species, Humans, Ecosystem, General Agricultural and Biological Sciences, Restoration ecology, General Environmental Science

Abstract

Human disturbance and climate change have increased the risk of extinction for rare and endangered wild plant species. One effective way to conserve these rare and endangered species is through reintroduction. In this review, we summarize the advances in wild plant reintroduction from five perspectives: the establishment of reintroduction biology as an important tool for biodiversity conservation; the importance of genetic diversity in reintroduction; reintroduction under global climate change; recruitment limitation in reintroduction; and reintroduction and ecological restoration. In addition, we consider the future of plant reintroduction strategies.

Published

2014

49. Patterns of Alien Plant Invasion across Coastal Bay Areas in Southern China

Author

Jing Li, Qianmei Zhang, Qinfeng Guo, Hualin Xu, Hai Ren, Fanghong Xu, and Hong Liu

Subjects

Ecology, biology, Species diversity, Introduced species, Ecotone, biology.organism_classification, Invasive species, Geography, Wedelia trilobata, Threatened species, Mangrove, Bay, Earth-Surface Processes, Water Science and Technology

Abstract

Ren, H.; Guo, Q.; Liu, H.; Li, J.; Zhang, Q.; Xu, H., and Xu, F., 2014. Patterns of alien plant invasion across coastal bay areas in southern China. An understanding of the ways in which levels of invasions by alien species are correlated with environmental factors is helpful to manage the negative impacts of these invasive species. Two tropical coastal areas in South China, Shenzhen Bay and Leizhou Bay, are national nature reserves, but they are threatened by invasive plants. Here, we investigated the level of invasion by exotic plants at both bays, and its relationship with selected environmental factors. We found a total of 34 invasive plant species, 18 of which were present at both bays; among these, 15 species were in terrestrial areas, three were at the ecotone, and one was in the mangroves. The two bays had a similar degree of invasion but were dominated by different species. Three invasive species (Ipomoea purpurea, Wedelia trilobata, and Panicum repens) were abundant at both bays, and on...

Published

2014

50. Local genetic structure in the critically endangered, cave-associated perennial herbPrimulina tabacum(Gesneriaceae)

Author

Zhang-Ming Wang, Zhong-Chao Li, Wanhui Ye, Kai-Ming Liang, Qianmei Zhang, Hai Ren, and Zheng-Feng Wang

Subjects

Conservation genetics, Genetic divergence, Critically endangered, Genetic diversity, education.field_of_study, Ecology, Genetic marker, Genetic variation, Genetic structure, Population, Biology, education, Ecology, Evolution, Behavior and Systematics

Abstract

The local spatial genetic structures of cave-associated plants are seldom studied. Given that these plants are mainly confined to small areas in and around the entrances of caves, we hypothesized that they might lack genetic structures at local scales. To test this hypothesis, we sampled two large populations (named D and T) of a critically endangered perennial herb, Primulina tabacum, which is endemic to karst caves in southern China. We analysed nine microsatellite loci and sequenced four chloroplast DNA (cpDNA) intergenic spacer regions to study the genetic diversity and structure within and between both populations. Both populations have distinct genetic characteristics. Samples from two subpopulations in population D showed considerable genetic divergence. This is not consistent with the hypothesis that P. tabacum has a weak genetic structure at a local scale. However, 94% of the individuals in population T shared the same multilocus genotype, which indicates little genetic structure within this population. The contributions of seed flow, pollen flow and (sub)population history to the genetic diversity and structure in each and both populations are discussed. Our study is the first to investigate local genetic diversity and structure in a cave-associated plant, and provides valuable information for the sustainable conservation of such species. © 2013 The Linnean Society of London, Biological Journal of the Linnean Society, 2013, 109, 747–756.

Published

2013