A5082407692- Evolution and Genetic Dynamics
- Zoonotic diseases and public health
- Viral Infections and Vectors
- Animal Disease Management and Epidemiology
- Vector-borne infectious diseases
- Stochastic processes and statistical mechanics
- Insect symbiosis and bacterial influences
- Advanced Steganography and Watermarking Techniques
- Chaos-based Image/Signal Encryption
- Mathematical and Theoretical Epidemiology and Ecology Models
- Digital Media Forensic Detection
- Ecosystem dynamics and resilience
- Animal Ecology and Behavior Studies
- Mosquito-borne diseases and control
Shanghai University of Medicine and Health Sciences
2020-2024
Changzhou Institute of Technology
2018
Fudan University
2015-2018
Biodiversity is thought to help regulate the impacts of disease through dilution effect, where biodiversity among potential host species helps limit pathogens. However, our knowledge fragmentary about direction and magnitude effects plant richness on impact. Here, we gathered data from 145 comparisons presented in 21 papers conduct a systematic meta‐analysis effect aboveground We estimated size using Pearson's correlation coefficient ( r ) with Fisher's z ‐transformation. evaluated how...
Although accumulated evidence has shown that biodiversity can play an important role in disease transmission and prevalence, it remains unclear how different measures of diversity based on taxonomy or function perform predicting risk. In this article, we assess the relative ability species richness, Shannon's evenness index, single functional traits, several metrics their interactions to predict risk both nonequilibrium equilibrium communities simulated by a multihost epidemiological model....
Understanding how ecological interactions affect vector-borne disease dynamics is crucial in the context of rapid biodiversity loss and increased emerging diseases. Although there have been many studies on impact interspecific competition host competence dynamics, few them addressed case a disease. Using simple compartment model with two competing species one vector, we investigated combined effects vector preference, competence, risk system. Our research demonstrated that transmission...
Abstract A central goal of disease ecology is to identify the factors that drive spread infectious diseases. Changes in vector richness can have complex effects on risk, but little known about role competence relationship between and risk. In this study, we firstly investigated combined competence, interspecific competition, feeding interference risk through a two‐vector, one‐host SIR‐SI model, obtained threshold conditions for occurrence dilution amplification effects. Secondly, extended...
Rapid global biodiversity loss and increasing emerging infectious diseases underscore the significance of identifying diversity-disease relationship. Although experimental evidence supports existence dilution effects in several natural ecosystems, we still know very little about conditions under which a effect will occur. Using multi-host Susceptible-Infected-Recovered model, found when disease transmission was density-dependent, relationship could exhibit an increasing, decreasing, or...
A stochastic nutrient–phytoplankton–zooplankton model with instantaneous nutrient recycling is proposed and analyzed in this paper. When the uptake function grazing are linear ingested phytoplankton completely absorbed by zooplankton, we establish two thresholds R0S R1S, which determine persistence extinction of plankton. That is, if R0S<1, both zooplankton eventually eliminated; R0S>1 R1S<1, persistent mean but extinct; while for R1S>1, entire system mean. Furthermore,...