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Phyteuma nigrum | |
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Scientific classification | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Clade: | Angiosperms |
Clade: | Eudicots |
Clade: | Asterids |
Order: | Asterales |
Family: | Campanulaceae |
Genus: | Phyteuma |
Species: | P. nigrum |
Binomial name | |
Phyteuma nigrum F.W.Schmidt | |
Phyteuma (P) nigrum, the black rampion, is a relatively rare species of plant in the family Campanulaceae. P. nigrum is located in central to northern Europe, primarily concentrated in Scandinavia. Much progress is yet to be made in forming concrete evolutionary relationships within this family and between the genera, but the molecular data from P. nigrum has contributed to the progress made in completing the evolutionary tree. The decrease in P. nigrum numbers over the past few decades has prompted the investigation into the reasons behind such a decline, leading to the conclusion that the factors that lead to a healthy P. nigrum population also run the risk of harming the population if not in just the right amount. The delicate nature of this organism makes its survival and reproductive success that much more uncertain.
The black rampion is a perennial herbaceous plant that reaches heights of 20 to 70 centimeters. The leaves are lanceolate and about half as wide as they are long. The basal leaves usually only have a shallow, heart-shaped blade base with a notched to sawn leaf edge. The lower stem leaves are ovate and narrowed at the base, the middle and upper ones only have a reduced blade. [1]
The relatively wide, egg-shaped to cylindrical, spiked inflorescence with a diameter of 1.5 to 3 centimeters, has one or two bracts. The bracts are linear to lanceolate. [1]
The hermaphrodite, five-fold flower is clearly curved before it blooms. The five petals are black-violet or black-blue, rarely white. The petals first grow together to form a tube, which bursts open from bottom to top during flowering. At the tip, however, the petals remain connected longer and the crown is bent upwards like a claw. The style ends in two stigma branches. [1]
Phyteuma nigrum is primarily located in northern Europe, encompassing all of Scandinavia, that is, Norway, Denmark, Sweden and Finland, with some populations also growing in Switzerland. [2]
Despite predominately growing in Scandinavia, P. nigrum did not originally grow in countries such as Norway and Denmark, instead being reportedly introduced in the 20th century; Norway in 1908 and Denmark in 1959. [2]
The Phyteuma genus as a whole is highly diverse when it comes to its habitat locations. Ranging from mountain ranges to lowlands in Northern Europe, these varying habitats allow the effects of both space and time to be studied for their evolutionary consequences. [2]
With shared flower morphologies, that is, the structure of the individual plant, it is inferred that Phyteuma is closely linked with Physoplexis. While both genera come from the same family (Campanulaceae), this link made via molecular data can have important significance in evolutionarily connecting and ordering the many genera within Campanulaceae, as this family contains over 80 genera, with a total of over 2,000 species. [3]
Using molecular data to identify evolutionary relationships, as opposed to morphology, contributes to strengthening the existing phylogenetic framework for Phyteuma. [3]
A single Phyteuma nigrum individual found in 1999 near what were once German World War II campsites at Sor-Varanger, Finnmark, Northeastern Norway, Fredheim, and Pikevann, has given more information on the spread of P. nigrum to northern latitudes. By comparing with taxa in the same areas, the introduction of P. nigrum to these northern sites can be dated from 1941 to 1944 as Germany introduced these "alien" plants (polemochores). [4]
During this time, Central Europe imported hay used for horse fodder, and the introduction of P. nigrum to these import sites is likely linked to this movement. This introduction contributed to expanding the geographical range of P. nigrum, with Sør-Varanger now marking the northernmost location for the genus. [4]
The method for pollination within Phyteuma nigrum is primarily animal-based, one animal in particular being the bumblebee. However, pollen limitation is a contributing factor for a lack of fertility within P. nigrum as well as other plants with relatively small populations such as Phyteyma spicatum. [5]
With P. nigrum being a relatively rare species, its small population contributes to the increasing struggle to successfully fertilize and disperse the next generation of sporophytes, that is, P. nigrum embryos. With a smaller population comes less frequent visitations from pollinators. With less pollination, and therefore fertilization, comes less competition between offspring, which negatively impacts the fitness of future generations of P. nigrum. [5]
Phyteuma nigrum population sizes have been on the decline, particularly in areas such as the Netherlands. Certain means for decline include the environment being too wet, resulting in pH values in the soil increasing to lead to acidification of the soil. [6]
Any factors that may lead to population decline within Phyteuma nigrum appear to work especially negatively toward smaller populations. Because of this risk associated with smaller populations, the ideal population size can lie anywhere from at least 20 flowering individuals to over 1,000, though even populations with under 300 individuals showed lesser fitness. [6]
The size of the population is especially important for the survival and success of any given P. nigrum population, but the surrounding habitat also plays a large role in the population's progeny performance and success. P. nigrum survives best in wet environments in soil with high pH values. These must be held in a careful balance with the factors that have been shown to harm the population if in too much excess. These undoubtedly lead to better population health and larger size, but the habitat diversity of P. nigrum makes these factors harder to expand for all populations. Populations existing in hay meadows at lower elevations would report lower pH values in the soil, and conditions generally present in larger populations are missing for these particular populations. [6]
Whether Phyteuma nigrum offspring perform well or not can be based on their phenotypic performance, that is, the weight of the plant excluding that of water. What this dry weight is dependent on is further dependent on the size of the population. In smaller populations, the phenotypic performance of progeny is highly dependent on the parent generation, whereas, in larger populations, the performance of progeny is largely independent of the parent. [7]
The family Asteraceae, with the original name Compositae, consists of over 32,000 known species of flowering plants in over 1,900 genera within the order Asterales. Commonly referred to as the aster, daisy, composite, or sunflower family, Compositae were first described in the year 1740. The number of species in Asteraceae is rivaled only by the Orchidaceae, and which is the larger family is unclear as the quantity of extant species in each family is unknown.
The Cucurbitales are an order of flowering plants, included in the rosid group of dicotyledons. This order mostly belongs to tropical areas, with limited presence in subtropical and temperate regions. The order includes shrubs and trees, together with many herbs and climbers. One major characteristic of the Cucurbitales is the presence of unisexual flowers, mostly pentacyclic, with thick pointed petals. The pollination is usually performed by insects, but wind pollination is also present.
The Zingiberales are flowering plants forming one of four orders in the commelinids clade of monocots, together with its sister order, Commelinales. The order includes 68 genera and 2,600 species. Zingiberales are a unique though morphologically diverse order that has been widely recognised as such over a long period of time. They are usually large herbaceous plants with rhizomatous root systems and lacking an aerial stem except when flowering. Flowers are usually large and showy, and the stamens are often modified (staminodes) to also form colourful petal-like structures that attract pollinators.
Petals are modified leaves that surround the reproductive parts of flowers. They are often brightly colored or unusually shaped to attract pollinators. All of the petals of a flower are collectively known as the corolla. Petals are usually accompanied by another set of modified leaves called sepals, that collectively form the calyx and lie just beneath the corolla. The calyx and the corolla together make up the perianth, the non-reproductive portion of a flower. When the petals and sepals of a flower are difficult to distinguish, they are collectively called tepals. Examples of plants in which the term tepal is appropriate include genera such as Aloe and Tulipa. Conversely, genera such as Rosa and Phaseolus have well-distinguished sepals and petals. When the undifferentiated tepals resemble petals, they are referred to as "petaloid", as in petaloid monocots, orders of monocots with brightly colored tepals. Since they include Liliales, an alternative name is lilioid monocots.
Lodoicea, commonly known as the sea coconut, coco de mer, or double coconut, is a monotypic genus in the palm family. The sole species, Lodoicea maldivica, is endemic to the islands of Praslin and Curieuse in the Seychelles. It has the largest seed in the plant kingdom. It was also formerly found on the small islets of St Pierre, Chauve-Souris, and Ile Ronde, all located near Praslin, but had become extinct there for a time until recently reintroduced.
Erica is a genus of roughly 857 species of flowering plants in the family Ericaceae. The English common names heath and heather are shared by some closely related genera of similar appearance. The genus Calluna was formerly included in Erica – it differs in having even smaller scale-leaves, and the flower corolla consisting of separate petals. Erica is sometimes referred to as "winter heather" to distinguish it from Calluna "summer heather".
Iridaceae is a family of plants in order Asparagales, taking its name from the irises. It has a nearly global distribution, with 69 accepted genera with a total of c. 2500 species. It includes a number of economically important cultivated plants, such as species of Freesia, Gladiolus, and Crocus, as well as the crop saffron.
Self-pollination is a form of pollination in which pollen from the same plant arrives at the stigma of a flower or at the ovule. There are two types of self-pollination: in autogamy, pollen is transferred to the stigma of the same flower; in geitonogamy, pollen is transferred from the anther of one flower to the stigma of another flower on the same flowering plant, or from microsporangium to ovule within a single (monoecious) gymnosperm. Some plants have mechanisms that ensure autogamy, such as flowers that do not open (cleistogamy), or stamens that move to come into contact with the stigma. The term selfing that is often used as a synonym, is not limited to self-pollination, but also applies to other type of self-fertilization.
Stabilizing selection is a type of natural selection in which the population mean stabilizes on a particular non-extreme trait value. This is thought to be the most common mechanism of action for natural selection because most traits do not appear to change drastically over time. Stabilizing selection commonly uses negative selection to select against extreme values of the character. Stabilizing selection is the opposite of disruptive selection. Instead of favoring individuals with extreme phenotypes, it favors the intermediate variants. Stabilizing selection tends to remove the more severe phenotypes, resulting in the reproductive success of the norm or average phenotypes. This means that most common phenotype in the population is selected for and continues to dominate in future generations.
The family Campanulaceae, of the order Asterales, contains nearly 2400 species in 84 genera of herbaceous plants, shrubs, and rarely small trees, often with milky sap. Among them are several familiar garden plants belonging to the genera Campanula (bellflower), Lobelia, and Platycodon (balloonflower). Campanula rapunculus and Codonopsis lanceolata are eaten as vegetables. Lobelia inflata, L. siphilitica and L. tupa and others have been used as medicinal plants. Campanula rapunculoides may be a troublesome weed, particularly in gardens, while Legousia spp. may occur in arable fields.
Marsupium, pl. marsupia; meaning pouch or purse in Latin, encompasses a diverse array of specialized anatomical structures found in various organisms across different taxonomic groups, predominantly in marsupials. Analogous structures are also observed in lower vertebrates and some invertebrates. This article provides an overview of marsupia across different taxa, highlighting their evolutionary significance, ecological roles, and physiological functions.
Silene latifolia, commonly known as white campion, is a dioecious flowering plant in the family Caryophyllaceae, native to most of Europe, Western Asia and northern Africa. It is a herbaceous annual, occasionally biennial or a short-lived perennial plant, growing to between 40–80 centimetres tall. It is also known in the US as bladder campion but should not be confused with Silene vulgaris, which is more generally called bladder campion.
Phyteuma is a genus of flowering plants in the family Campanulaceae, native to Europe and Morocco.
Extinction vortices are a class of models through which conservation biologists, geneticists and ecologists can understand the dynamics of and categorize extinctions in the context of their causes. This model shows the events that ultimately lead small populations to become increasingly vulnerable as they spiral toward extinction. Developed by M. E. Gilpin and M. E. Soulé in 1986, there are currently four classes of extinction vortices. The first two deal with environmental factors that have an effect on the ecosystem or community level, such as disturbance, pollution, habitat loss etc. Whereas the second two deal with genetic factors such as inbreeding depression and outbreeding depression, genetic drift etc.
Plant reproduction is the production of new offspring in plants, which can be accomplished by sexual or asexual reproduction. Sexual reproduction produces offspring by the fusion of gametes, resulting in offspring genetically different from either parent. Asexual reproduction produces new individuals without the fusion of gametes, resulting in clonal plants that are genetically identical to the parent plant and each other, unless mutations occur.
Vanilla polylepis is a climbing orchid species in the plant family Orchidaceae. It is native to tropical Africa, with a range spanning the width of the continent, from Kenya to Angola. It grows in high-altitude evergreen and swamp forests between 1,200–1,500 m (3,900–4,900 ft) and is often found growing on trees bordering rivers and waterfalls. Plants produce bright green, fleshy stems, 10–12 mm (0.39–0.47 in) in diameter, with large, glossy leaves. White, aerial roots form on the stems allowing the orchids to attach themselves to trees for support. As with many orchids, they produce showy flowers, which in the case of V. polylepis are white and yellow with a pink to maroon blotch. This differentiates them from similar species. They have seedpod-like fruits, called capsules, which produce a distinctive aroma as they dry. They are closely related to the well-known species Vanilla planifolia, whose seed pods are used commercially in the production of vanilla flavouring.
Ecological speciation is a form of speciation arising from reproductive isolation that occurs due to an ecological factor that reduces or eliminates gene flow between two populations of a species. Ecological factors can include changes in the environmental conditions in which a species experiences, such as behavioral changes involving predation, predator avoidance, pollinator attraction, and foraging; as well as changes in mate choice due to sexual selection or communication systems. Ecologically-driven reproductive isolation under divergent natural selection leads to the formation of new species. This has been documented in many cases in nature and has been a major focus of research on speciation for the past few decades.
Autogamy or self-fertilization refers to the fusion of two gametes that come from one individual. Autogamy is predominantly observed in the form of self-pollination, a reproductive mechanism employed by many flowering plants. However, species of protists have also been observed using autogamy as a means of reproduction. Flowering plants engage in autogamy regularly, while the protists that engage in autogamy only do so in stressful environments.
This glossary of genetics and evolutionary biology is a list of definitions of terms and concepts used in the study of genetics and evolutionary biology, as well as sub-disciplines and related fields, with an emphasis on classical genetics, quantitative genetics, population biology, phylogenetics, speciation, and systematics. Overlapping and related terms can be found in Glossary of cellular and molecular biology, Glossary of ecology, and Glossary of biology.
Introgressive hybridization, also known as introgression, is the flow of genetic material between divergent lineages via repeated backcrossing. In plants, this backcrossing occurs when an generation hybrid breeds with one or both of its parental species.
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