Epiphytic metazoans on emergent macrophytes in oxbow lakes of the Krapina River, Croatia: differences related to plant species and limnological conditions

Špoljar, Maria; Fressl, Jelena; Dražina, Tvrtko; Meseljević, Matija; Grčić, Zlatko

doi:10.2478/v10184-011-0062-5

Cited by 14 publications

(9 citation statements)

References 42 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Table 1. List of the 37 sampled aquatic sites (Ghana #1-32, Angola # [33][34][35][36][37] and their environmental features. Sites ordered as in map (see Figure 1).…”

Section: Study Areamentioning

confidence: 99%

“…In the littoral zone, it is also common to observe the presence of epiphytic rotifers, which depend on the presence of a suitable substrate for their growth [35]. In these habitats, rotifers represent a major part of the non-algal periphyton biomass [36,37]. Changes in the physical and chemical features of the water body can also determine the occurrence of certain rotifer species.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Improving Aquatic Biodiversity Estimates in Africa: Rotifers of Angola and Ghana

Smolak,

Brown,

Walsmith

et al. 2024

Diversity

View full text Add to dashboard Cite

Afrotropical inland waters are highly diverse ecosystems; however, they remain poorly studied, especially for rotifers. Here, we contributed to the knowledge of the rotifer species richness in the largely understudied African countries of Angola and Ghana. We assessed the roles of habitat type and a suite of abiotic environmental factors in determining rotifer species richness of Ghana. A total of 37 sites (Ghana 32, Angola 5) in 19 water bodies from a variety of aquatic habitat types were sampled. In Ghana, we identified 118 taxa (105 species or subspecies level, 13 identified to genus). We identified 15 taxa (13 species) in the Angola samples. For Ghana, 100 of 118 (~85%) taxa were new records for the country, of which 13 species (~11%) were also new records for Africa. Nearly all the species (~93%) were new records for Angola. Species richness was positively correlated with conductivity and reservoir habitat type and negatively with pH. Redundancy analysis (RDA), conducted at the species level for the Ghana dataset, indicated suites of species associated with latitude, longitude, temperature, TDS, or pH. We also evaluated the effect of climate on species distribution in 27 African countries by conducting a review of all reports from Africa to determine factors associated with species richness. A Spearman’s correlation confirmed a significant positive correlation between the number of rotifer species and the number of climatic regions (R = 0.53, p < 0.001) for certain countries, based on species distributions in relation to Köppen–Geiger climate regions. This fact validates the environmental heterogeneity hypothesis for African rotifers. Lastly, we predicted that rotifer species richness in Ghana, as a country with a tropical climate, could approach ~190 taxa, while in climatically heterogeneous Angola we predict ~200 taxa. This study contributes to our knowledge of rotifer biogeography and species richness patterns in Africa.

show abstract

“…Table 1. List of the 37 sampled aquatic sites (Ghana #1-32, Angola # [33][34][35][36][37] and their environmental features. Sites ordered as in map (see Figure 1).…”

Section: Study Areamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Improving Aquatic Biodiversity Estimates in Africa: Rotifers of Angola and Ghana

Smolak,

Brown,

Walsmith

et al. 2024

Diversity

View full text Add to dashboard Cite

show abstract

“…rivers, streams, and the like) and shallow lakes contributing largely to the autochthonous carbon pool and oxygen budget of the aquatic ecosystem (Janauer & Dokulil, 2006). These plants have a significant function in water biocenoses, hydrology and sediment dynamics, biochemical cycles, structuring and altering the physico-chemical features (of an aquatic ecosystem) by photosynthesis, mineralization, and decomposition (Jeppesen et al, 2002;Joniak et al, 2007;Špoljar et al, 2012). Macrophytes have diverse species of microalgae attached to submerged plant parts which have been shown to be an important productive component of the aquatic ecosystem (Sheldon & Boylen, 1975).…”

Section: Introductionmentioning

confidence: 99%

Taxonomy and Species Composition of Epiphytic Algae in Sta. Cruz River, Laguna (Philippines)

Arguelles

Monsalud

2021

J microb biotech food sci

View full text Add to dashboard Cite

Algal epiphytes attached on three dominant aquatic macrophytes (Pistia striatotes, Eichhornia crassipes and Ipomoea aquatic) were investigated as part of a preliminary study on the ecological assessment of Sta. Cruz River, which has been used primarily for agriculture and fishery. In total, 22 algal taxa were identified on the studied macrophytes: 8 Chlorophyta, 4 Cyanobacteria, 7 Bacillariophyta, and 3 Euglenophyta. The taxa in this paper represent 8 classes, 16 orders, 20 families, 22 genera and 22 species based on the latest algal taxonomical nomenclature. Among these taxa, the existence of a rare filamentous cyanobacteria, Planktothrix compressa (Utermöhl) Anagnostidis et Komárek is described for the first time in the Philippines. A species of diatom is also reported in this study for the first time based on recent algal taxonomic nomenclature and this is Ulnaria ulna (Nitzsch) Compère that is based on the former name of Synedra ulna (Nitzsch) Ehrenberg. These taxonomic records proved that aquatic macrophytes represents a unique habitat for novel and diverse types of algal flora, which demands further investigations in the country.

show abstract

“…Littoral zone of shallow lakes is often covered with macrophytes, where submersed macrophytes significantly impact environmental conditions, i.e. stabilize the sediment, provide refuge and food source for invertebrates, and influence the nutrient cycle (Meerhoff et al, 2007;Bogut et al, 2010;Čerba et al, 2010;Špoljar et al, 2012;BasiĔska et al, 2014). Watermilfoil Myriophyllum spicatum is a submerged plant with dissected, thin leaves which create particularly favourable microhabitat conditions for aquatic invertebrates KuczyĔska-Kippen and BasiĔska, 2014).…”

Section: Introductionmentioning

confidence: 99%

Phytophilous Fauna of a Small and Artificial Urban Lake

Krajina¹,

Bogut

Čerba

et al. 2017

Croatian Journal of Fisheries

View full text Add to dashboard Cite

Phytophilous community on Myriophyllum spicatum was studied in a small artificial urban lake in the city of Osijek (eastern Croatia), during the spring and summer season in 2010. In the eutrophic conditions, macrophyte stands were well developed and in the formed periphyton representatives of the following invertebrate taxa were found: Hydrozoa, Nematoda, Gastropoda, Cladocera, Copepoda, Insecta larvae - including families Chironomidae and Coleoptera. They displayed differences in temporal abundance patterns. Two separate phases in macrophyte colonization with differences in invertebrate composition and abundance were recorded. Insect larvae, particularly Chironomidae, were most abundant in the first phase, through the spring period, and Hydra oligactis (brown hydra) was most abundant in the second phase, i.e. summer period. Concurrently, microcrustacean abundance declined towards the end of the summer. Results of the analyses indicated that water temperature and perihyton biomass were the variables exerting the main influence on the invertebrate assemblage, while interestingly, macrophyte size and biomass were negatively correlated with most of the fauna abundance. On the other hand, brown hydra was negatively correlated with all other invertebrate taxa, except gastropods. Larger surface of submersed macrophytes is the main parameter supporting the increase of invertebrate abundance due to providing protection from predators and growth for periphyton, an important food source for these phytophilous organisms. Macrophyte length was positively correlated with Hydra abundance, while Chironomids were more influenced by periphyton biomass. These organisms can indicate water quality conditions and a potential increase in primary and secondary production.

show abstract

Epiphytic metazoans on emergent macrophytes in oxbow lakes of the Krapina River, Croatia: differences related to plant species and limnological conditions

Cited by 14 publications

References 42 publications

Improving Aquatic Biodiversity Estimates in Africa: Rotifers of Angola and Ghana

Improving Aquatic Biodiversity Estimates in Africa: Rotifers of Angola and Ghana

Taxonomy and Species Composition of Epiphytic Algae in Sta. Cruz River, Laguna (Philippines)

Phytophilous Fauna of a Small and Artificial Urban Lake

Contact Info

Product

Resources

About