Jimin Liu’s research while affiliated with South China Agricultural University and other places

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Publications (7)


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.


Figure 3. Micrographs of the gills of P. canaliculata. (A). In details of gill filaments of control group snails, normal gill filament columnar cells (CC) are tightly arranged, a few mucous cells (MC) are visible, and the hemolysis gap (h) is narrow. (D,E). Gill filaments exposed to 1/2 LC50 of metaldehyde show disorganized gill filament columnar cells (CC) with cell degeneration, cilia loss (blue arrows), a greatly expanded hemolysis gap (h), and inflammatory cell infiltration (i). (B,C). Gill filaments exposed to 1/4 LC50 metaldehyde show slight loosening and degenerative arrangement of gill filament columnar epithelial cells (CC) and more area of hemolysis gap expansion (h).
LC50 values of Pomacea canaliculata exposed to metaldehyde for 24 h, 48 h, 72 h, and 96 h, with confidence limits of 95%.
Sum of squares (SS), degrees of freedom (df), mean square residuals (MS), Fisher's test (F) and p-value (p) of the multifactorial ANOVA for the effect of the treatments, time and sex and their interactions on enzyme activity.
Effect of Metaldehyde on Survival, Enzyme Activities, and Histopathology of the Apple Snail Pomacea canaliculata (Lamarck 1822)

June 2024

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51 Reads

Biology

Pomacea canaliculata, as an invasive exotic species in Asia, can adversely affect crop yields, eco-environment, and human health. Application of molluscicides containing metaldehyde is one effective method for controlling P. canaliculata. In order to investigate the effects of metaldehyde on adult snails, we conducted acute toxicological experiments to investigate the changes in enzyme activities and histopathology after 24 h and 48 h of metaldehyde action. The results showed that the median lethal concentrations (LC) of metaldehyde on P. canaliculata were 3.792, 2.195, 1.833, and 1.706 mg/L at exposure times of 24, 48, 72, and 96 h, respectively. Treatment and time significantly affected acetylcholinesterase (AChE), glutathione S-transferase (GST), and total antioxidant capacity (TAC) activity, with sex significantly affecting AChE, GST, and TAC activity and time significantly affecting carboxylesterase (CarE). In addition, the interaction of treatment and time significantly affected the activity of GST, CarE and TAC. In addition, histopathological changes occurred in the digestive glands, gills and gastropods of apple snail exposed to metaldehyde. Histological examination of the digestive glands included atrophy of the digestive cells, widening of the hemolymph gap, and an increase in basophils. In treated snails, the hemolymph gap in the gills was widely dilated, the columnar cells were disorganized or even necrotic, and the columnar muscle cells in the ventral foot were loosely arranged and the muscle fibers reduced. The findings of this study can provide some references for controlling the toxicity mechanism of invasive species.



Occurrence of Pomacea canaliculata (red filled circles) and P. maculata (black filled square) collected in native South America range. Convex hulls in green and lilac color represent the 10-km buffered minimum convex polygon for P. canaliculata and P. maculata occurrence locations, respectively
Environmental niche pattern of native P. canaliculata (a) and its changes in China (b) and US (d) based on principal component analysis. The first two axes of each PCA represent the density of species occurrences and the environmental space. Solid and dashed lines indicate 100% and 90% of all the available environments. The blue color represents the niche overlap between native and introduced region. The green and red color represent niche unfilling, niche expansion environments. The red arrows show the change in the niche centroid between native and introduced range. c and e describe the impacts of environmental variables to niche changes in China and the United States, respectively. The correlation circles represent the variable importance along the first two principle axes
Predicted distribution of Pomacea snails in invaded China using the ensemble models calibrated with either the native (P. canaliculata: (a); P. maculata: (c)) or invaded US occurrences (P. canaliculata: (b); P. maculata: (d)). Grey shading on the binary maps indicates areas with suitable environmental requirements for Pomacea snails. Known localities of P. canaliculata (blue filled squares) and P. maculata (red filled circles) in invaded China were displayed in corresponding small figures
Niche conservatism and geographical range expansion of Pomacea canaliculata and Pomacea maculata in non-native United States and China

July 2023

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171 Reads

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5 Citations

Biological Invasions

The most noxious apple snails (Pomacea canaliculata and P. maculata) native to South America, currently have 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 invaded range. Conservation of ecological niche between the native and invasive snail populations was 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 was 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 discussed 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.


Top 10 subject categories in the apple-snails-related research field.
Top 10 journals in terms of publication records in the apple-snails-related research filed.
Top 10 Authors in terms of publication records in the apple-snails-related research.
The top 10 clusters and related feature information for apple-snails-related research.
A Bibliometric Analysis of Research on Apple Snails (Ampullariidae)

June 2023

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183 Reads

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1 Citation

Agronomy

Apple snails (ASs), the freshwater snails of the family Ampullariidae, are widely spread in tropical and subtropical regions. Owing to their strong invasiveness and harmful effects on agricultural production and ecosystems, they have attracted considerable attention. However, less research has been conducted on the whole picture of the current research status and development trends in the ASs field. For this purpose, we conducted a bibliometric analysis based on a total of 1028 publications regarding ASs published between 1900 and 2021 using VOSviewer 1.6.18 and CiteSpace 6.1.R3 software. The results suggest that ASs research has received increasing attention in recent years. The most productive country has been the USA, while the institution with the most publications was Consejo Nacional de Investigaciones Científicas y Técnicas Conicet. “Zoology” was the category of the most popular subject, Journal of Molluscan Studies was the primary journal, and P.R. Martin was the most outstanding author in ASs field. Invasive alien species, alarm response, copper (Cu) exposure, taxonomy and phylogenetic analysis, Angiostrongylus cantonensis (parasite), control (including molluscicidal activity), growth and reproduction, and feeding preferences were the main research hotspots. Further, “Pomacea maculata”, “Evolution”, “Biology”, “Digestive gland”, “Phylogeny”, “Identification”, “Pomacea canaliculata caenogastropoda”, “Diversity”, and “Nonnative apple snail” have been emerging active topics in recent years. These findings can help researchers in this area to better understand the direction and advances of ASs research and are valuable for future research and agricultural practice of apple snail control.


Citations (2)


... Pomacea canaliculata is expanding worldwide (Yang et al. 2022;Yin et al. 2022). One possible factor contributing to the recent expansion of the distribution range is climate warming (Lei et al. 2017;Hah et al. 2022), although other factors such as water quality and moisture may also be important in determining its distribution (Ito 2002;Qin et al. 2023). Pomacea canaliculata often fails to overwinter in temperate regions (Wada and Matsukura 2007;Yoshida et al. 2009). ...

Reference:

Temperature dependence of feeding activity in the invasive freshwater snail Pomacea canaliculata: implications for its response to climate warming
Niche conservatism and geographical range expansion of Pomacea canaliculata and Pomacea maculata in non-native United States and China

Biological Invasions

... Freshwater snails of the Ampullariidae emerged as prominent invasive species around 1990 and become the focus of an ever-increasing scientific interest since then (Preston et al. 2022;Yao et al. 2023). This family includes the biggest freshwater snails of the world, leading them to be collectively named "apple snails" (Hayes et al. 2009). ...

A Bibliometric Analysis of Research on Apple Snails (Ampullariidae)

Agronomy