Zeheng Xiao’s research while affiliated with South China Agricultural University and other places

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Publications (11)


FIGURE 1 | (a) Variations of pond water temperature; (b) Variations of lipid content in the overwintering Pomacea canaliculata population with a size-gender structure (juveniles, female, and male adults) from November 2021 to April 2022. Mean survival and standard errors (n = 4) for each group were also shown.
FIGURE 2 | Survivorship of overwintering Pomacea canaliculata population with a size-gender structure (juveniles, female, and male adults) from November 2021 to April 2022. Mean survival and standard errors (n = 4) for each group were also shown.
FIGURE 3 | Variations of the supercooling point and freezing points in overwintering Pomacea canaliculata population from November 2021 to April 2022. (a-c) Variation of SCP (violin with quartile plot) and FP (box plot) in juveniles, female, and male snail adults, respectively. Mean survival and standard errors (n = 6) for each group were also shown.
FIGURE 4 | Variations of free-water content (FWC) and boundwater content (BWC) in overwintering Pomacea canaliculata population. (a-c) Variations of FWC (violin with quartile plot) and BWC (box plot) in juveniles, female, and male snail adults, respectively. Mean survival and standard errors (n = 6) for each group were also shown.
FIGURE 6 | Variations of antioxidant activities of superoxide dismutase (SOD), peroxidase (POD), catalase (CAT) as well as concentrations of malondialdehyde (MDA) and reduced glutathione (GSH) in overwintering Pomacea canaliculata population. (a-c) Variations of these antioxidant enzymes and antioxidants in juveniles, female, and male snail adults, respectively. Mean survival and standard errors (n = 4) for each group were also shown.

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Cold Tolerance and Physiological Response of Natural Overwintering Pomacea canaliculata in South China
  • Article
  • Full-text available

November 2024

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13 Reads

Journal of Experimental Zoology Part A Ecological and Integrative Physiology

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Zeheng Xiao

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Chuang Li

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[...]

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Yiman Liu

Pomacea canaliculata (Lamarck 1822), a freshwater gastropod indigenous to lower Del Plata Basin of Argentina, has become the most destructive and invasive rice pests in south China since its introduction in the 1980s. In Guangdong, the main production areas for double rice, most of P. canaliculata overwinter in paddy field ditches after late‐rice harvesting in mid‐November and diapause to temporarily to avoid the damaging effects of extreme low temperatures. This pest aroused from diapause and migrated to the paddy field after early‐rice reviving in next late March. Overwintering and cold tolerance of natural P. canaliculata have a non‐negligible impact on population dynamics and distribution in the following year. We tested the supercooling capability, levels of cryoprotectant synthesis, activity of antioxidant defense system (antioxidant enzymes and reduced glutathione), and degree of oxidative damage (concentration of malondialdehyde as an index of lipid peroxidation) monthly, using natural P. canaliculata samples with a size‐gender structure (i.e., juveniles, female, and male adults) from experimental ponds during the period of mid‐November to the following April. P. canaliculata survived the winter with a monthly death rate of 7%–16.5% in coldest January. The supercooling point (SCP) of overwintering P. canaliculata decreased initially before increasing subsequently with monthly changes in water temperature. P. canaliculata accumulated a high glycogen content before December, which depleted towards the end of January, while lipid content reached peak in January and depleted since February. Activity of antioxidant defense system of P. canaliculata exhibited significant monthly differences and showed relatively higher size heterogeneity than monthly variations. The results contribute to the knowledge of adaptability in overwintering P. canaliculata and help to understand the mechanism of the invasive success of this species.

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Strategies of invasive snail Pomacea canaliculata during hibernation in rice fields of south China: effects of body size, sex, and soil depth

August 2024

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129 Reads

BACKGROUND The invasive freshwater snail Pomacea canaliculata is an agricultural pest with a certain level of tolerance to abiotic stress. After the harvest of late rice, the snails usually burrow themselves into the soil surface layers to overwinter and pose a renewed threat to rice production in the following year. Revealing the response of snails to environmental stresses is crucial for developing countermeasures to control their damage and spread. RESULTS In this study, we conducted a 120‐day in situ experiment during the winter to investigate the survival and physiological changes of hibernating snails in 0‐5 and 5‐10 cm soil depths, aiming to explore their overwintering strategies. Our results showed that 73.61%, 87.50%, and 90.28% of male, female, and juvenile snails survived after hibernation for 120 days in 0–10 cm soil depth, respectively. The differences in survival rates based on sex and size of snails potentially reflect the countermeasures of snails to rapidly reproduce after hibernation. Simultaneously, the hibernating snails exhibited the ability to maintain a certain level of body weight. During this period, the snails increased their antioxidant enzyme activities to cope with oxidative stress, and enhanced their lipid storage. The hibernation survival of snails was not significantly affected by different soil depths, indicating that they have the potential to hibernate into deeper soils. Furthermore, snails were capable of increasing their contents of bound water and glycerol to cope with sudden cold spells during hibernation. CONCLUSION Our findings emphasize the adaptive changes of P. canaliculata snails overwintering in paddy soils. In future studies, the vulnerabilities of P. canaliculata during hibernation (e.g. shell characteristics, nutrient reserves, and dehydration tolerance, etc.,) should be investigated to develop effective control methods for this period. © 2024 Society of Chemical Industry.



Spatiotemporal characterization of heavy metal and antibiotics in the Pearl River Basin and pollutants removal assessment using invasive species-derived biochars

April 2023

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73 Reads

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29 Citations

Journal of Hazardous Materials

Rivers play essential roles in human civilization, while anthropogenic activities have deteriorated their resilience and functionalities. Combating contamination is one of the priorities for building the river's resilience and providing safe water and habitats for livelihoods, wildlife preservation, and food production. We collected 174 water and sediment samples from the upstream to the estuary of the Pearl River (PR), characterized the heavy metal and antibiotics contamination levels, and analyzed the spatiotemporal distribution by compiling historical datasets extracted from published research papers and governmental documents. We also assessed the feasibility of removing PR water heavy metals and antibiotics using biochars derived from two invasive plants, Bidens pilosa L. and Lantana camara. According to our findings, heavy metals and antibiotics in water and sediment increased towards the downstream region of the Pearl River Delta (PRD). The water and sediment samples obtained from the Dongguan and Shenzhen regions exhibited the most elevated levels of heavy metals, whereas the samples from the Huizhou region demonstrated the highest levels of antibiotics. Compared with previously published PRD sediment heavy metals (1976–2011) and antibiotics contamination data (2006–2017), we found that some heavy metals and all measured antibiotics contents in sediment substantially reduced (80–100%). Cu, Zn, Cr, and As significantly polluted the sediment in PRD. Shenzhen had the highest Index of geo-accumulation (Igeo) for Cu, Zn, and Cr, while Zhaoqing had the highest Igeo for As. The dominant antibiotics were Ciprofloxacin, Doxycycline, Norfloxacin, Ofloxacin, Oxytetracycline, and Tetracycline. Invasive plant-derived biochars showed high antibiotic removal capacity but failed to reduce most PR water heavy metals since these invasive plants are potential heavy metal hyperaccumulators. The spatial distribution of heavy metal and antibiotics concentration/content in water and sediment samples is primarily affected by anthropogenic activities such as industrialization, aquaculture, pharmaceutical, and agricultural practice. Our study provides insights into the extensive freshwater watersheds' decontamination and green policymaking.



High capacity of oxytetracycline hydrochloride removal in wastewater via Mikania micrantha Kunth-derived biochar modified by Zn/Fe-layered double hydroxide

July 2022

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51 Reads

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33 Citations

Bioresource Technology

Antibiotic contamination in water has been an increasing global concern, and how to effectively remove antibiotics (e.g., oxytetracycline [OTC] hydrochloride) from wastewater becomes imperative. In this study, the biochar derived from an invasive plant (Mikania micrantha Kunth) was synthesized with Zn/Fe- layered double hydroxide (LDH) by co-precipitation method (ZnFe-LDH/MBC) to remove OTC from water. ZnFe-LDH/MBC posed the highest OTC removal performance of 426.61 mg/g. ZnFe-LDH/MBC exhibited stability and efficiency in OTC adsorption at different pH levels and under interfering conditions with co-existing ions, as well as outstanding regeneration capabilities during adsorption-desorption cycles. Furthermore, the removal of OTC by ZnFe-LDH/MBC was mediated by several processes including pore filling, hydrogen bonding force, electrostatic interaction, π-π interaction, as well as complexation. Consequently, ZnFe-LDH/MBC has excellent potential for the purification of OTC pollutants that is low-cost, efficient, and environmentally friendly.



Effects of acid rain on plant growth: A meta-analysis

November 2021

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1,914 Reads

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51 Citations

Journal of Environmental Management

Anthropogenic driven acid gases emission has caused acid rain in many regions globally. Although efforts have been made to assess the effects of acid rain on terrestrial ecosystems, a systematic assessment of growth-related traits across plant aboveground and belowground is lacking. Hence, we performed a phylogenetically controlled meta-analysis of 755 observations from 69 independent studies to quantify the effects of acid rain on six growth-related traits of plant. We estimated the inhibitory effects of acid rain on plant growth in general and found that aboveground and belowground plant parts responded differently. The acidity of acid rain and acid rain interval had direct modulation effects on plant growth. We also found that there were interactions between acid rain pH and other acid rain characteristics (i.e., acid rain interval, mole ratio of S:N, and acid rain rate) and experimental characteristics (i.e., initial soil pH and plant exposure part), indicating that there were pH-dependent interaction patterns. Thus, an effective approach to evaluate and predict the effects of acid rain on plant growth is to fully consider the direct effects of acid rain pH and the interactions between acid rain pH and other factors.


Simultaneous quantification of the lipids phosphatidylcholine, 3-sn-phosphatidylethanolamine, sphingomyelin, and L-α-lysophosphatidylcholine extracted from the tissues of the invasive golden apple snail (Pomacea canaliculata) using UHPLC-ESI-MS/MS

May 2021

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40 Reads

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9 Citations

Food Chemistry

Lipids such as phosphatidylcholine (PC), 3-sn phosphatidylethanolamine (PE), sphingomyelin (SM) and L-α-lysophosphatidylcholine (LPC) are the major components of biological membranes and play important roles in physiological functions. Here, PC, PE, SM, and LPC were extracted from golden apple snails (GAS, Pomacea canaliculata) and GAS flesh (GASF) using an ethanol/hexane sequential scheme and quantified simultaneously using ultra-high performance liquid chromatography-electrospray ionization-tandem mass spectrometry (UHPLC-ESI-MS/MS) to evaluate whether the GAS could be the source of the four lipids. Our results suggest that ethanol extracts contained the most crude lipids, and the yield of dry (evaporated) lipids were 3.45 g per 100 g fresh GASF and 1.82 g per 100 g of fresh GAS. Quantification of the lipids using UHPLC-ESI-MS/MS suggested that GAS contained PE, PC, SM and LPC, with SM being the most abundant lipid (after purification: 1.71 and 1.42 mg g−1 dry weight from 100 g of GASF and GAS, respectively). The method we used is cost-effective, and the recovery rates of ethanol and hexane ranged from 80−91% and 87−91% respectively. Overall, GAS and GASF are potential raw materials for lipids such as SM and PC extraction using the ethanol/hexane method. Comparatively, lipids extraction from the GAS is more effective and timesaving. Our finding would provide a way to utilize GAS and potentially control its invasion.


Figure 2
Performance of the ensemble models for Pomacea canaliculata and P. maculata based on TSS values (TSS: True kill statistic). Note *: models based on Pomacea species occurrences from the native range or invaded ranges only, were projected to the target invasive range to test their performances.
Niche conservatism and invasion potential of Pomacea canaliculata and Pomacea maculata in two invaded regions

February 2021

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258 Reads

The most noxious apple snails ( Pomacea canaliculata and P. maculata ) native to South America, currently has two distinct invaded ranges in China and the United States. Whether the environmental niches of the two closely related species have changed or remained stable (niche conservatism hypothesis) during the invasion process has become an important issue in forecasting their potential geographic distributions. For each Pomacea snail, two ecological niche models (ENMs, employing BIOMOD2) were generated based on bioclimatic variables and occurrence records in: (1) the native range; (2) the different invasive range. Conservation of ecological niche between the native and invasive snail populations were then tested by principal component and niche dynamics analysis. According to all models, precipitation contributed most to distribution of P. maculata , whereas low temperature was another most influential factor for spread of P. canaliculata . Niche conservatism were indicated by niche similarity tests and high niche stability for both Pomacea snails during their invasions in two regions. Niche expansions of P. canaliculata were relatively larger than unfilling values, whereas niche expansions of P. maculata were lower than unfillings. High niche unfilling for P. maculata in the United States revealed a great potential for further expansion in this region. We discuss the possible roles of physiological tolerances, genetic variation, residence time and hybridization in shaping niche changes for Pomacea snails during their invasion processes. Findings of this work can improve the understanding of potential mechanisms for niche differentiation and provide a theoretical basis for forecasting the invasion potential of Pomacea snails.


Citations (5)


... The application of solid waste to agricultural fields further intensifies the contamination of these antibiotics in runoff [8,9]. Seasonal fluctuations and urban development have a profound effect on the distribution of antibiotics in watersheds, as demonstrated by the different antibiotic resistance profiles of the local ecology [10][11][12]. The antibiotic resistance of aquatic microorganisms can reach malleable, sub-stable, or stable stages due to the continuous release of antibiotics from human activities in the watershed basin [13,14]. ...

Reference:

Ecological Response of Enzyme Activities in Watershed Sediments to the Reintroduction of Antibiotics
Spatiotemporal characterization of heavy metal and antibiotics in the Pearl River Basin and pollutants removal assessment using invasive species-derived biochars
  • Citing Article
  • April 2023

Journal of Hazardous Materials

... The efficiency of the MgAl-LDH and MgAl-LDH@SiO 2 particles for dyes removal are similar or higher than those of other LDH-based adsorbents (Table S18) [33,[46][47][48][49][50][51][52][53][54]. ...

Aqueous Cr (VI) removal performance of an invasive plant-derived biochar modified by Mg/Al-layered double hydroxides
  • Citing Article
  • March 2023

Colloids and Interface Science Communications

... Numerous studies have also shown that OTCHs contribute to microbial death and the dissemination of antibiotic resistance genes [9], which can be transmitted to other organisms through water runoff, soil and food. In particular, OTCH, a broad-spectrum antibiotic, has a long half-life and poor chemical and biological degradation [10], highlighting the urgent need for an effective and eco-friendly method to remove it from water [11]. ...

High capacity of oxytetracycline hydrochloride removal in wastewater via Mikania micrantha Kunth-derived biochar modified by Zn/Fe-layered double hydroxide
  • Citing Article
  • July 2022

Bioresource Technology

... [7] In urban areas, acid rain can accelerate metal corrosion and deteriorate materials like limestone, marble, and mortar. [8] Hence, it is crucial to not only enhance air quality by diminishing emissions or augmenting SO 2 capture but also monitor potentially polluted environments with SO 2 . Such measures are essential for averting severe health repercussions for individuals laboring in various urban settings. ...

Effects of acid rain on plant growth: A meta-analysis
  • Citing Article
  • November 2021

Journal of Environmental Management

... Established analytical technologies used to measure LPC are relatively complex, such as nuclear magnetic resonance (NMR) [14], matrix-assisted laser desorption and ionization time-of-flight mass spectrometry (MALDI-TOF MS) [15], high-performance liquid chromatography-mass spectrometry (HPLC-MS) [16], and ultra-high-performance liquid chromatography-electrospray ionization-tandem mass spectrometry (UHPLC-ESI-MS) [17]. These methods require expensive equipment, skilled technicians who can handle the equipment and analyze the data, complex processing procedures, and long analysis times. ...

Simultaneous quantification of the lipids phosphatidylcholine, 3-sn-phosphatidylethanolamine, sphingomyelin, and L-α-lysophosphatidylcholine extracted from the tissues of the invasive golden apple snail (Pomacea canaliculata) using UHPLC-ESI-MS/MS
  • Citing Article
  • May 2021

Food Chemistry