对比利时四个农场椎实螺的时间和微观空间分布进行纵向研究，作为肝片吸虫小规模风险地图绘制的基础。

Longitudinal study on the temporal and micro-spatial distribution of Galba truncatula in four farms in Belgium as a base for small-scale risk mapping of Fasciola hepatica.

作者信息

Charlier Johannes, Soenen Karen, De Roeck Els, Hantson Wouter, Ducheyne Els, Van Coillie Frieke, De Wulf Robert, Hendrickx Guy, Vercruysse Jozef

机构信息

Department of Virology, Parasitology and Immunology, Faculty of Veterinary Medicine, Ghent University, Salisburylaan 133, 9820, Merelbeke, Belgium.

Laboratory of Forest Management and Spatial Information Techniques, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, 9000, Gent, Belgium.

出版信息

Parasit Vectors. 2014 Nov 26;7:528. doi: 10.1186/s13071-014-0528-0.

DOI:10.1186/s13071-014-0528-0

PMID:25425397

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4247775/

Abstract

BACKGROUND

The trematode parasite Fasciola hepatica causes important economic losses in ruminants worldwide. Current spatial distribution models do not provide sufficient detail to support farm-specific control strategies. A technology to reliably assess the spatial distribution of intermediate host snail habitats on farms would be a major step forward to this respect. The aim of this study was to conduct a longitudinal field survey in Flanders (Belgium) to (i) characterise suitable small water bodies (SWB) for Galba truncatula and (ii) describe the population dynamics of G. truncatula.

METHODS

Four F. hepatica-infected farms from two distinct agricultural regions were examined for the abundance of G. truncatula from the beginning (April 2012) until the end (November 2012) of the grazing season. Per farm, 12 to 18 SWB were selected for monthly examination, using a 10 m transect analysis. Observations on G. truncatula abundance were coupled with meteorological and (micro-)environmental factors and the within-herd prevalence of F. hepatica using simple comparison or negative binomial regression models.

RESULTS

A total of 54 examined SWB were classified as a pond, ditch, trench, furrow or moist area. G. truncatula abundance was significantly associated with SWB-type, region and total monthly precipitation, but not with monthly temperature. The clear differences in G. truncatula abundance between the 2 studied regions did not result in comparable differences in F. hepatica prevalence in the cattle. Exploration of the relationship of G. truncatula abundance with (micro)-environmental variables revealed a positive association with soil and water pH and the occurrence of Ranunculus sp. and a negative association with mowed pastures, water temperature and presence of reed-like plant species.

CONCLUSIONS

Farm-level predictions of G. truncatula risk and subsequent risk for F. hepatica occurrence would require a rainfall, soil type (representing the agricultural region) and SWB layer in a geographic information system. While rainfall and soil type information is easily accessible, the recent advances in very high spatial resolution cameras carried on board of satellites, planes or drones should allow the delineation of SWBs in the future.

摘要

背景

肝片吸虫这种吸虫寄生虫在全球范围内给反刍动物造成了重大经济损失。当前的空间分布模型无法提供足够详细的信息来支持针对具体农场的控制策略。一项能够可靠评估农场中间宿主蜗牛栖息地空间分布的技术将在这方面向前迈出重要一步。本研究的目的是在比利时弗拉芒地区进行一项纵向实地调查，以（i）确定适合截口圆扁螺生存的小型水体（SWB）的特征，以及（ii）描述截口圆扁螺的种群动态。

方法

从两个不同农业区域选取了四个感染肝片吸虫的农场，在放牧季节开始时（2012年4月）至结束时（2012年11月）对截口圆扁螺的数量进行调查。每个农场选择12至18个小型水体进行每月一次的检查，采用10米样带分析法。通过简单比较或负二项回归模型，将截口圆扁螺数量的观测结果与气象和（微）环境因素以及牛群中肝片吸虫的感染率相结合。

结果

总共54个被检查的小型水体被分类为池塘、沟渠、壕沟、犁沟或潮湿区域。截口圆扁螺的数量与小型水体类型、区域和月总降水量显著相关，但与月温度无关。两个研究区域之间截口圆扁螺数量的明显差异并未导致牛群中肝片吸虫感染率出现类似差异。对截口圆扁螺数量与（微）环境变量之间关系的探索表明，其与土壤和水体pH值以及毛茛属植物的出现呈正相关，与割过的牧场、水温以及芦苇类植物物种的存在呈负相关。

结论

要在农场层面预测截口圆扁螺的风险以及随后肝片吸虫出现的风险，需要在地理信息系统中纳入降雨、土壤类型（代表农业区域）和小型水体图层。虽然降雨和土壤类型信息很容易获取，但卫星、飞机或无人机搭载的超高空间分辨率相机的最新进展，未来应该能够描绘出小型水体的轮廓。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5626/4247775/0a6003fe436c/13071_2014_528_Fig1_HTML.jpg

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对比利时四个农场椎实螺的时间和微观空间分布进行纵向研究，作为肝片吸虫小规模风险地图绘制的基础。

Longitudinal study on the temporal and micro-spatial distribution of Galba truncatula in four farms in Belgium as a base for small-scale risk mapping of Fasciola hepatica.

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