Soil testate amoebae from sub-Antarctic Îles Crozet

Ant-plant interactions in the canopy of a lowland Amazonian rainforest of the upper Orinoco, Venezuela, were studied using a modified commercial crane on rails (Surumoni project). Our observations show a strong correlation between plant sap exudates and both abundance of ants and co-occurrence of ant species in tree canopies. Two types of plant sap sources were compared: extrafloral nectaries (EFNs) and honeydew secretions by homopterans. EFNs were a frequent food source for ants on epiphytes (Philodendron spp., Araceae) and lianas (Dioclea, Fabaceae), but rare on canopy trees in the study area, whereas the majority of trees were host to aggregations of homopterans tended by honeydew-seeking ants (on 62% of the trees examined). These aggregations rarely occurred on epiphytes. Baited ant traps were installed on plants with EFNs and in the crowns of trees from three common genera, including trees with and without ant-tended homopterans: Goupia glabra (Celastraceae), Vochysia spp. (Vochysiaceae), and Xylopia spp. (Annonaceae). The number of ant workers per trap was significantly higher on plants offering one of the two plant sap sources than on trees without such resources. Extrafloral nectaries were used by a much broader spectrum of ant species and genera than honeydew, and co-occurrence of ant species (in traps) was significantly higher on plants bearing EFNs than on trees. Homopteran honeydew (Coccidae and Membracidae), on the other hand, was mostly monopolised by a single ant colony per tree. Homopteran-tending ants were generally among the most dominant ants in the canopy. The most prominent genera were Azteca, Dolichoderus (both Dolichoderinae), Cephalotes, Pheidole, Crematogaster (all Myrmicinae), and Ectatomma (Ponerinae). Potential preferences were recorded between ant and homopteran species, and also between ant-homopteran associations and tree genera. We hypothesize that the high availability of homopteran honeydew provides a key resource for ant mosaics, where dominant ant colonies and species maintain mutually exclusive territories on trees. In turn, we propose that for nourishment of numerous ants of lower competitive capacity, Philodendron and other sources of EFNs might be particularly important.

show abstract

Remarks on karyological differentiation patterns in tropical woody plants

Morawetz

1986

Pl Syst Evol

109

View full text Add to dashboard Cite

Untitled

Steege¹,

Pitman²,

Sabatier³

et al. 2003

354

View full text Add to dashboard Cite

Species richness and distribution patterns of leaf-inhabiting endophytic fungi in a temperate forest canopy

et al. 2007

View full text Add to dashboard Cite

In 2005, researchers at the Leipzig Canopy Crane Research Facility collected living leaves of four temperate tree species at heights of between 15 and 33 m above the ground. Following surface sterilisation of the leaves, leaf-fragments were cultured on malt extract agar which allowed the growth of endophytic fungi into the surrounding medium. Isolated cultures were identified by morphology and sequence analysis of the D1/D2 region of the large subunit rDNA. Phylogenetic analysis established the taxonomic positions of the fungi. A total of 49 different taxa were identified, representing 20 families and ten orders. With the exception of one basidiomycetous yeast, all taxa belonged to filamentous ascomycetes. Species richness was highest on Tilia cordata and lowest on Quercus robur. Species-accumulation curves showed that the sampling effort was not sufficient to cover the majority of the likely species at the investigation site. Most endophytes proved to be ubiquitous within the canopy of the investigation site, but habitat preferences in terms of different tree species, different light regimes and season (sampling times) were obvious for some abundant endophytes. Apiognomonia errabunda and Aspergillus niger occurred predominantly on Q. robur, Diplodina acerina on Acer pseudoplatanus, one species of Phoma significantly prefered shaded leaves from the lower canopy layer whereas Sordaria fimicola prefered sun-exposed leaves from the upper tree crowns. Seasonal patterns were observed, for example, for A. errabunda, which was abundant in young leaves in the spring and almost completely absent in aged autumn-leaves, thus suggesting the accumulation of antifungal secondary plant metabolites during the growing season.

show abstract

Species richness and substrate specificity of lignicolous fungi in the canopy of a temperate, mixed deciduous forest

2005

View full text Add to dashboard Cite

Karyological Differentiation in Sapindaceae with Special Reference to Serjania and Cardiospermum

Hemmer

Morawetz

1990

Botanica Acta

View full text Add to dashboard Cite

New chromosome counts for 9 species an( 2 genera of Sapindaceae are presented and compare( with a review of all available chromosome numbers o the family. In 4 species diploid numbers differing fron previous reports are found. In 4 species of the tribe Paul linieae (S. divers$ora, S. subdentata. C. grandiflorun and C. halicacabum) detailed studies on interphase nu cleus structure, condensing behaviour and chromosomc banding patterns are presented. The karyological dif ferentiation of Paullinieae is generally characterized b! dysploid reduction of chromosome numbers and the in crease of chromosome size. Sequential staining of nucle with CWDAPI and Giemsa-C-banding demonstrate! diversification of constitutive heterochromatin (= hc and different types of chromatin organization in Ser, jania and Cardiospermum. The obvious lack of polyploic series and the karyological evolution within the family it discussed. The outstanding small genome size found ir Cardiospermum halicacabum is considered to be due tc a secondary loss of DNA in the course of the change tc herbaceous growth.

show abstract

Karyosystematics and evolution of AustralianAnnonaceae as compared withEupomatiaceae, Himantandraceae, andAustrobaileyaceae

Morawetz

1988

Pl Syst Evol

View full text Add to dashboard Cite

Frost Damage of Cerrado Plants in Botucatu, Brazil, as Related to the Geographical Distribution of the Species

Silberbauer-Gottsberger¹,

Morawetz²,

Gottsberger³

1977

Biotropica

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

334 Leonard St

Brooklyn, NY 11211

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Wilfried Morawetz

How plants shape the ant community in the Amazonian rainforest canopy: the key role of extrafloral nectaries and homopteran honeydew

Remarks on karyological differentiation patterns in tropical woody plants

Untitled

Species richness and distribution patterns of leaf-inhabiting endophytic fungi in a temperate forest canopy

Species richness and substrate specificity of lignicolous fungi in the canopy of a temperate, mixed deciduous forest

Karyological Differentiation in Sapindaceae with Special Reference to Serjania and Cardiospermum

Karyosystematics and evolution of AustralianAnnonaceae as compared withEupomatiaceae, Himantandraceae, andAustrobaileyaceae

Frost Damage of Cerrado Plants in Botucatu, Brazil, as Related to the Geographical Distribution of the Species

Contact Info

Product

Resources

About