Mariusz Rybacki scite author profile

Mariusz Rybacki

4Publications

151Citation Statements Received

69Citation Statements Given

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Affiliations

Kazimierz Wielki University in Bydgoszcz, Polish Academy of Sciences, Instytut Środowiska Rolniczego i Leśnego Polskiej Akademii Nauk

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Types of water frog populations (Rana esculenta complex) in Poland

Rybacki

Berger

2008

Zool. Reihe

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Poland is inhabited by the two water frog species Ranu ridihunda (genotype RR) and Rana lessonae (LL) and their hybridogenetic hybrid R Q~U esculenta. Besides diploid (RL) hybrids two triploid (RRL, RLL) forms were found. In most populations the hybrid occurs syntopically with only one of the parental species. Concerning their genotypic structure water frog populations can be subdivided into three systems: the L-E (lessonue-esculenta) system, the R-E (ridihundu-esculenta) system and the E-E (esculenta-esculent) system. The composition of water frog populations in Poland is highly differentiated. Among 27 population types described from central Europe 18 types were found in Poland. The highest diversity of population types was seen in the R-E system (8 types). In the L-E system three and in the E-E system four different types were found. Among 11170 investigated adult water frogs 690 (6%) presumptive triploid R. esculentu individuals occurred. In western Poland the proportion of triploid individuals and the diversity of population types was higher (7.7% triploid individuals, 13 population types) than in the eastern parts of the country (0.2% triploid individuals, six population types). The distribution picture of triploid individuals in western Poland is similar to that seen in eastern Germany (as a rule a high proportion of triploids occurs) while in eastern Poland the distribution pattern of triploid genotypes resembles the situation observed in the territory of the former Soviet Union (nearly no triploids appear).

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DNA content and genome composition of diploid and triploid water frogs belonging to the Rana esculenta complex (Amphibia, Anura)

Ogielska¹,

Kierzkowski²,

Rybacki³

2004

Can. J. Zool.

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The Central European water frog Rana esculenta L., 1758 is a natural hybrid between Rana lessonae Camerano, 1882 (LL) and Rana ridibunda Pallas, 1771 (RR). Hybrids are usually diploid (RL) or triploid (LLR or RRL). Distinguishing LL from RL, RR from RL, and LLR from RRL according to external morphology is ambiguous. In this study we checked whether the DNA content in erythrocyte nuclei measured by image cytometry is useful in determination of the taxonomic status of diploids (LL, RR, and RL) and the genome composition of triploids (LLR and RRL). For exact and direct identification of parental species, as well as for determination of genome composition in hybrids, we applied actinomycin D – 4',6-diamidino-2-phenylindole chromosome staining to metaphase plates. We analyzed 43 LL, 12 RR, and 32 RL diploids, and 37 LLR and 19 RRL triploids. All diploid hybrids had 2n = 26 chromosomes, and all triploid hybrids had 3n = 39 chromosomes. Neither aneuploid nor mosaic hybrids were detected. The expected numbers of 13 R. lessonae (L) and 13 R. ridibunda (R) chromosomes in RL hybrids were recorded in about 31% of individuals. In the rest of the sample the composition was variable, ranging from 9 to 14 R chromosomes and the corresponding number of L chromosomes. The expected composition of 26 L and 13 R chromosomes was detected in about 32% of LLR triploids, whereas in the rest of the sample the composition of chromosomes ranged from 8 to 15 R chromosomes and the corresponding number of L chromosomes. The expected numbers of 26 R and 13 L chromosomes were detected in about 26% of RRL triploids, whereas in the rest of the sample the composition of chromosomes ranged from 19 to 28 R chromosomes and the corresponding number of L chromosomes. The DNA content densitometry showed that RR and RL diploids had 9.5% and 3.8% more DNA, respectively, than LL diploids. These differences, although statistically significant, were not sufficient to unequivocally discriminate LL from RL and RR from RL. Triploids had about 50% more DNA than LL diploids (49% in LLR and 51% in RRL), but these differences were too small for unequivocal determination of their genome composition.

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Is body size of the water frog Rana esculenta complex responding to climate change?

Tryjanowski

Sparks

Rybacki³

et al. 2006

Naturwissenschaften

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Recent studies on climate responses in ectothermic (cold-blooded) vertebrates have been few in number and focussed on phenology rather than morphology. According to Bergmann's rule, endothermic (warm-blooded) vertebrates from cooler climates tend to be larger than congeners from warmer regions. Although amphibians are ectothermic vertebrates, weather and climatic conditions may also impact on their morphology, and thereby affect their survival rates and population dynamics. In this paper, we show, in a unique long-term study during the period 1963-2003 in an agricultural landscape in western Poland, that the body length of two water frog parental species (males of both Rana ridibunda and R. lessonae) increased significantly. However, their hybridogenetic hybrid R. esculenta did not show similar changes. A significant relationship with a large-scale climatic factor, the winter North Atlantic Oscillation index, was found positive for R. ridibunda males and R. lessonae females, and negative for R. esculenta females. Our findings, the first for amphibians, are consistent with other studies reporting that recent climate change has affected the morphology of animals. However, we also show that changes in amphibian phenotype linked to climate may vary independently between (even very similar) species.

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Types of water frog populations (Rana esculenta complex) in Poland

Rybacki¹,

Berger²

2001

Mitt. Mus. Nat.kd. Berl., Zool. Reihe

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Mariusz Rybacki

Types of water frog populations (Rana esculenta complex) in Poland

DNA content and genome composition of diploid and triploid water frogs belonging to the Rana esculenta complex (Amphibia, Anura)

Is body size of the water frog Rana esculenta complex responding to climate change?

Types of water frog populations (Rana esculenta complex) in Poland

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