Deep Phylogeographic Structure and Environmental Differentiation in the Carnivorous Plant Sarracenia alata

Tissue from the hood and sarcophagus regions were fixed in 6% glutaraldehyde in 1 M.cacodylate buffer and washed in buffer. Tissue for SEM was partially dried, attached to aluminium targets with silver conducting paint, carbon-gold coated(100-500Å), and examined in a Kent Cambridge Stereoscan S4. Tissue for the light microscope was post fixed in 1% aqueous OsO4, dehydrated in acetone (4°C), embedded in Epon 812 and sectioned at ½u on a Sorvall MT 2 ultramicrotome. Cross and longitudinal sections were cut and stained with PAS, 0.5% toluidine blue and 1% azure II-methylene blue. Measurements were made from both SEM and Light micrographs.The tissue had two structurally distinct surfaces, an outer surface with small (225-500 µ) pubescent hairs (12/mm2), numerous stoma (77/mm2), and nectar glands(8/mm2); and an inner surface with large (784-1000 µ)stiff hairs(4/mm2), fewer stoma (46/mm2) and larger, more complex glands(16/mm2), presumably of a digestive nature.

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Recognizing human impacts on the estimated phylogeographic structure of indigenous exotic forest pest populations in North America

10.1603/ice.2016.93528 ◽

2016 ◽

Author(s):

Andrew D. Graves

Keyword(s):

North America ◽

Human Impacts ◽

Phylogeographic Structure ◽

Forest Pest

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Functional anatomy of carnivorous traps

10.1093/oso/9780198779841.003.0013 ◽

2018 ◽

Cited By ~ 2

Author(s):

Bartosz J. Płachno ◽

Lyudmila E. Muravnik

Keyword(s):

Current Knowledge ◽

Functional Anatomy ◽

Carnivorous Plant ◽

Carnivorous Plants ◽

New Type ◽

Functional Units

We review the current knowledge of trap anatomy of carnivorous plants, with a focus on the diversity and structure of the glands that are used to attract, capture, kill and digest their prey and finally to absorb nutrients from carcasses of prey. These glands have diverse forms. Regardless of their structure and origin, they have the same functional units, but there are differences in subcellular mechanisms and adaptations for carnivory. We propose a new type of carnivorous plant trap—a ‘fecal traps—which has unique physiology, morphology, and anatomy for attracting the animals that are the source of excrement and also to retain and use it.

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Estimating the exposure of carnivorous plants to rapid climatic change

10.1093/oso/9780198779841.003.0028 ◽

2018 ◽

Cited By ~ 1

Author(s):

Matthew C. Fitzpatrick ◽

Aaron M. Ellison

Keyword(s):

Climatic Change ◽

Habitat Suitability ◽

Species Distributions ◽

Dispersal Limitation ◽

Small Population ◽

Carnivorous Plant ◽

Carnivorous Plants ◽

Habitat Specialization ◽

Population Sizes ◽

Suitable Habitats

Climatic change likely will exacerbate current threats to carnivorous plants. However, estimating the severity of climatic change is challenged by the unique ecology of carnivorous plants, including habitat specialization, dispersal limitation, small ranges, and small population sizes. We discuss and apply methods for modeling species distributions to overcome these challenges and quantify the vulnerability of carnivorous plants to rapid climatic change. Results suggest that climatic change will reduce habitat suitability for most carnivorous plants. Models also project increases in habitat suitability for many species, but the extent to which these increases may offset habitat losses will depend on whether individuals can disperse to and establish in newly suitable habitats outside of their current distribution. Reducing existing stressors and protecting habitats where numerous carnivorous plant species occur may ameliorate impacts of climatic change on this unique group of plants.

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Putative local adaptations modulate the interactions of the carnivorous plant Drosera uniflora Willd (1809) (Droseraceae) with cushion and shrub nurse plants

Austral Ecology ◽

10.1111/aec.12762 ◽

2019 ◽

Vol 44 (6) ◽

pp. 962-972

Author(s):

José I. Orellana ◽

Carlos E. Valdivia

Keyword(s):

Carnivorous Plant ◽

Nurse Plants ◽

Local Adaptations

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Whole-Genome Sequencing and Characterization of Buffalo Genetic Resources: Recent Advances and Future Challenges

Animals ◽

10.3390/ani11030904 ◽

2021 ◽

Vol 11 (3) ◽

pp. 904

Author(s):

Saif ur Rehman ◽

Faiz-ul Hassan ◽

Xier Luo ◽

Zhipeng Li ◽

Qingyou Liu

Keyword(s):

Selective Breeding ◽

Reference Genome ◽

De Novo ◽

Phenotypic Diversity ◽

Molecular Data ◽

Genomic Diversity ◽

Production Performance ◽

Phylogeographic Structure ◽

Economic Significance ◽

And Performance

The buffalo was domesticated around 3000–6000 years ago and has substantial economic significance as a meat, dairy, and draught animal. The buffalo has remained underutilized in terms of the development of a well-annotated and assembled reference genome de novo. It is mandatory to explore the genetic architecture of a species to understand the biology that helps to manage its genetic variability, which is ultimately used for selective breeding and genomic selection. Morphological and molecular data have revealed that the swamp buffalo population has strong geographical genomic diversity with low gene flow but strong phenotypic consistency, while the river buffalo population has higher phenotypic diversity with a weak phylogeographic structure. The availability of recent high-quality reference genome and genotyping marker panels has invigorated many genome-based studies on evolutionary history, genetic diversity, functional elements, and performance traits. The increasing molecular knowledge syndicate with selective breeding should pave the way for genetic improvement in the climatic resilience, disease resistance, and production performance of water buffalo populations globally.

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Proof of anthocyanins in the carnivorous plant genus Nepenthes

FEBS Open Bio ◽

10.1002/2211-5463.13255 ◽

2021 ◽

Author(s):

Alberto Davila‐Lara ◽

Michael Reichelt ◽

Ding Wang ◽

Heiko Vogel ◽

Axel Mithöfer

Keyword(s):

Carnivorous Plant

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Analysis of multiple chromosomal rearrangements in the genome of Willisornis vidua using BAC-FISH and chromosome painting on a supposed conserved karyotype

BMC Ecology and Evolution ◽

10.1186/s12862-021-01768-y ◽

2021 ◽

Vol 21 (1) ◽

Cited By ~ 1

Author(s):

Talita Fernanda Augusto Ribas ◽

Julio Cesar Pieczarka ◽

Darren K. Griffin ◽

Lucas G. Kiazim ◽

Cleusa Yoshiko Nagamachi ◽

...

Keyword(s):

Chromosome Painting ◽

Diploid Number ◽

Chromosomal Rearrangements ◽

Large Degree ◽

Artificial Chromosome ◽

Gallus Gallus ◽

Phylogeographic Structure ◽

Molecular Cytogenetic ◽

Burhinus Oedicnemus ◽

Intrachromosomal Rearrangements

Abstract Background Thamnophilidae birds are the result of a monophyletic radiation of insectivorous Passeriformes. They are a diverse group of 225 species and 45 genera and occur in lowlands and lower montane forests of Neotropics. Despite the large degree of diversity seen in this family, just four species of Thamnophilidae have been karyotyped with a diploid number ranging from 76 to 82 chromosomes. The karyotypic relationships within and between Thamnophilidae and another Passeriformes therefore remain poorly understood. Recent studies have identified the occurrence of intrachromosomal rearrangements in Passeriformes using in silico data and molecular cytogenetic tools. These results demonstrate that intrachromosomal rearrangements are more common in birds than previously thought and are likely to contribute to speciation events. With this in mind, we investigate the apparently conserved karyotype of Willisornis vidua, the Xingu Scale-backed Antbird, using a combination of molecular cytogenetic techniques including chromosome painting with probes derived from Gallus gallus (chicken) and Burhinus oedicnemus (stone curlew), combined with Bacterial Artificial Chromosome (BAC) probes derived from the same species. The goal was to investigate the occurrence of rearrangements in an apparently conserved karyotype in order to understand the evolutionary history and taxonomy of this species. In total, 78 BAC probes from the Gallus gallus and Taeniopygia guttata (the Zebra Finch) BAC libraries were tested, of which 40 were derived from Gallus gallus macrochromosomes 1–8, and 38 from microchromosomes 9–28. Results The karyotype is similar to typical Passeriformes karyotypes, with a diploid number of 2n = 80. Our chromosome painting results show that most of the Gallus gallus chromosomes are conserved, except GGA-1, 2 and 4, with some rearrangements identified among macro- and microchromosomes. BAC mapping revealed many intrachromosomal rearrangements, mainly inversions, when comparing Willisornis vidua karyotype with Gallus gallus, and corroborates the fissions revealed by chromosome painting. Conclusions Willisornis vidua presents multiple chromosomal rearrangements despite having a supposed conservative karyotype, demonstrating that our approach using a combination of FISH tools provides a higher resolution than previously obtained by chromosome painting alone. We also show that populations of Willisornis vidua appear conserved from a cytogenetic perspective, despite significant phylogeographic structure.

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