National Repository of Grey Literature 6 records found  Search took 0.00 seconds. 
Vliv různých teplot na konkurenceschopnost raka mramorovaného v agresivních interakcích
KREJČÍ, Miloslav
Crayfish are an important aquatic ecosystems engeneers. Non-indigenous crayfish often decrease the abundance of native species and they affect ecosystem balance. Changes in freshwater ecosystems are usually caused by invasive species of crayfish, especially North American species. These species transmit crayfish plague (Aphanomyces astaci) too. One of these species is marbled crayfish (Procambarus virginalis).Aim of the thesis was an experimental comparison of the competitiveness of marbled crayfish in interspecies interactions with red swamp crayfish (Procambarus clarkii), signal crayfish (Pacifastacus leniusculus) and spiny-cheek crayfish (Faxonius limosus) depending on water temperature. The experiment included 20 runs of interspecific interactions at 16 °C, 18 runs of interspecific interactions at 20 °C and 19 runs of interspecific interactions at 24 °C. Interactions occurred in individual plastic tanks with tempered water. Interactions in tanks were recorded by camera. Subsequently, the agonistic interactions of crayfish were evaluated from 30 minutes of recordings. In conclusion, marbled crayfish is competitive opponent for psychrophilic and thermophilic crayfish species, especially at higher temperatures. The global warming could increase the success of spreading to new areas for marbled crayfish, as well as the survival of winter. In new areas, marbled crayfish could cause negative impacts for native organisms, especially native crayfish species.
Hosts and transmission of the crayfish plague pathogen Aphanomyces astaci
Svoboda, Jiří
The crayfish plague pathogen, the oomycete Aphanomyces astaci, has been decimating populations of European crayfish species for more than 150 years, and is therefore considered one of the 100 worst world's invasive species. A. astaci is highly specialised for a parasitic life, but it can be isolated from moribund crayfish and grown on synthetic media, as it is the case also for several other oomycetes (chapter 7). The life of A. astaci includes three basic forms: mycelium in host's tissues, and the infective units occurring in water, zoospores and cysts. All North American crayfish species tested so far have shown some resistance to A. astaci, i.e., they could carry the infection for long, serving as vectors of the pathogen. Massive sporulation from infected North American crayfish starts when the host is moulting, stressed, or dying (chapter 4). However, I could show in my experiments that some sporulation occurs even from apparently healthy and non-moulting American crayfish hosting A. astaci, so infected North American crayfish must be considered a permanent source of the infection (chapter 4). Five genotype groups of A. astaci have already been distinguished. Strains from a particular genotype group probably share the same original host crayfish species of North American origin. Nevertheless, they can...
Některé reprodukční a fyziologické aspekty invasivních raků
YAZICIOGLU, Buket
Several studies have been carried out to understand reproductive biology of invasive crayfish. Many researchers have described how invasive species establish their population in new habitats, interactions between native and invasive species, their fast spreading, changing of behavior and biology especially reproductive behavior and even genetics. But it seems that there are still lots of questions and gaps which need to be addressed in case of invasive crayfish species. This thesis tried to focus on different aspects of reproduction biology of invasive crayfish. Generally, the normal crayfish reproduction mode is gonochorism. But, it has been showed in the literature that a few species such as Cherax quadricarinatus, Samastacus spinifrons, Parastacus virilastacus and Pacifastacus leniusculus may have different reproduction modes such as hermaphroditism or intersex. Parthenogenesis has been found in Procambarus fallax f. virginalis. Also, apomictic parthenogenesis has been reported in Orconectes limosus. Moreover, there have been several manipulations which directly affect reproduction biology of crayfish under lab conditions. Additionally, hybridization can be expected between Astacus astacus and Astacus leptodactylus, Orconectes rusticus and Orconectes propinquus under natural conditions. Some studies supposed that chemical factors also one of the reasons which could lead to some changes in reproductive system of crayfish. The objective of the Chapter 2 was to report first evidence of intersex in the signal crayfish, Pacifastacus leniusculus (Dana, 1852). That specimen appeared morphologically male but with both male and female genital openings, as well. Spermophores were obtained from vas defertia of this speciemen. Histological study was carried out and it has shown that both spermatophores and oocytes were present. The gonadosomatic index showed that intersex male had a GSI three times more higher than normal males. The ultrastructure of spermatozoa in three cambarid species Cambarus robustus, Orconectes propinquus, Orconectes rusticus were described and compered with eight previously studied species from family of Astacidae, Cambaridae and Parastacidae. In the studied cambarids, the crest-like protrusions in the anterior part of the acrosome is one of the most remarkable differences in case of morphological feature in spermatozoa and can be used for distinguishing the members of Cambaridae. The results of biometrical data showed that the smallest and biggest acrosome sizes in the studied species were in Parastacidae and Astacidae, respectively. The duration of post-mating spermatophore storage as well as the timing and temperature of spawning in two crayfish species (Pacifastacus leniusculus and Astacus astacus) were investigated in the Chapter 4. Seventy-one pairs of adult signal crayfish (Pacifastacus leniusculus) and thirty six pairs of noble crayfish (Astacus astacus) were used for experiment. The results indicated that there was a significant difference (P<0.05) between noble crayfish and signal crayfish in average duration of the post-mating spermatophore storage. The duration of the post-mating spermatophore storage is longer in the noble crayfish with 34.6 ? 1.7 days than the signal crayfish with 3.9 ? 0.5 days. There were also differences in the timing of mating and egg laying between the signal crayfish and noble crayfish. In the population of signal crayfish both mating and egg laying overlapped, but in the population of noble crayfish there was at least two weeks gap between last mating and first egg laying individuals. Water temperature was significantly (P<0.05) higher during mating and egg laying in the signal crayfish than the noble crayfish. The average temperatures for mating in both species were significantly (P<0.05) higher than the temperatures that they utilized for egg laying. As a conclusion more research is needed for better understand of the reproduction strategies in invasive crayfish.
Hosts and transmission of the crayfish plague pathogen Aphanomyces astaci
Svoboda, Jiří
The crayfish plague pathogen, the oomycete Aphanomyces astaci, has been decimating populations of European crayfish species for more than 150 years, and is therefore considered one of the 100 worst world's invasive species. A. astaci is highly specialised for a parasitic life, but it can be isolated from moribund crayfish and grown on synthetic media, as it is the case also for several other oomycetes (chapter 7). The life of A. astaci includes three basic forms: mycelium in host's tissues, and the infective units occurring in water, zoospores and cysts. All North American crayfish species tested so far have shown some resistance to A. astaci, i.e., they could carry the infection for long, serving as vectors of the pathogen. Massive sporulation from infected North American crayfish starts when the host is moulting, stressed, or dying (chapter 4). However, I could show in my experiments that some sporulation occurs even from apparently healthy and non-moulting American crayfish hosting A. astaci, so infected North American crayfish must be considered a permanent source of the infection (chapter 4). Five genotype groups of A. astaci have already been distinguished. Strains from a particular genotype group probably share the same original host crayfish species of North American origin. Nevertheless, they can...
Genetic variation in North American crayfish species introduced to Europe and the prevalence of the crayfish plague pathogen in their populations
Filipová, Lenka ; Petrusek, Adam (advisor) ; Diéguez-Uribeondo, Javier (referee) ; Trontejl, Peter (referee)
- ABSTRACT (IN ENGLISH) - Biological invasions by crustaceans represent a serious threat for native species in Europe. In my thesis I focus on non-indigenous freshwater crayfish introduced to Europe and their parasite Aphanomyces astaci, the pathogen of the crayfish plague. The thesis consists of four already published first-author papers (chapters I, II, IV and V), two first-author manuscripts (chapters III and VI), and one paper which I co-authored (chapter VII). The first part (chapters I-V) focuses on genetic variation in North American crayfish introduced to Europe. We showed that in two crayfish species, both successful invaders in Europe, genetic variation differs significantly, reflecting their different colonization histories on the continent. The spiny-cheek crayfish Orconectes limosus was likely introduced to Europe just once, in small numbers (90 individuals). Variation at the mitochondrial DNA (mtDNA) level in the spiny-cheek crayfish in Europe is much lower compared to North America (chapter I), although some variation was revealed by nuclear markers in its Central European populations (chapter II). In contrast, the signal crayfish Pacifastacus leniusculus was introduced to Europe several times, in large numbers. Its European populations are highly diverse genetically and belong to a single...
Hosts and transmission of the crayfish plague pathogen Aphanomyces astaci
Svoboda, Jiří ; Petrusek, Adam (advisor) ; Maguire, Ivana (referee) ; Jussila, Japo (referee)
The crayfish plague pathogen, the oomycete Aphanomyces astaci, has been decimating populations of European crayfish species for more than 150 years, and is therefore considered one of the 100 worst world's invasive species. A. astaci is highly specialised for a parasitic life, but it can be isolated from moribund crayfish and grown on synthetic media, as it is the case also for several other oomycetes (chapter 7). The life of A. astaci includes three basic forms: mycelium in host's tissues, and the infective units occurring in water, zoospores and cysts. All North American crayfish species tested so far have shown some resistance to A. astaci, i.e., they could carry the infection for long, serving as vectors of the pathogen. Massive sporulation from infected North American crayfish starts when the host is moulting, stressed, or dying (chapter 4). However, I could show in my experiments that some sporulation occurs even from apparently healthy and non-moulting American crayfish hosting A. astaci, so infected North American crayfish must be considered a permanent source of the infection (chapter 4). Five genotype groups of A. astaci have already been distinguished. Strains from a particular genotype group probably share the same original host crayfish species of North American origin. Nevertheless, they can...

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