Betula
Alnus
Betulaceae
Abies
Trees
Cavitation fatigue. Embolism and refilling cycles can weaken the cavitation resistance of xylem. (1/167)
Although cavitation and refilling cycles could be common in plants, it is unknown whether these cycles weaken the cavitation resistance of xylem. Stem or petiole segments were tested for cavitation resistance before and after a controlled cavitation-refilling cycle. Cavitation was induced by centrifugation, air drying of shoots, or soil drought. Except for droughted plants, material was not significantly water stressed prior to collection. Cavitation resistance was determined from "vulnerability curves" showing the percentage loss of conductivity versus xylem pressure. Two responses were observed. "Resilient" xylem (Acer negundo and Alnus incana stems) showed no change in cavitation resistance after a cavitation-refilling cycle. In contrast, "weakened" xylem (Populus angustifolia, P. tremuloides, Helianthus annuus stems, and Aesculus hippocastanum petioles) showed considerable reduction in cavitation resistance. Weakening was observed whether cavitation was induced by centrifugation, air dehydration, or soil drought. Observations from H. annuus showed that weakening was proportional to the embolism induced by stress. Air injection experiments indicated that the weakened response was a result of an increase in the leakiness of the vascular system to air seeding. The increased air permeability in weakened xylem could result from rupture or loosening of the cellulosic mesh of interconduit pit membranes during the water stress and cavitation treatment. (+info)Phenylcoumaran benzylic ether and isoflavonoid reductases are a new class of cross-reactive allergens in birch pollen, fruits and vegetables. (2/167)
We investigated the biochemical function of the birch pollen allergen Bet v 6 and its role in the IgE-cross-reactivity between birch pollen and plant foods, and characterized Pyr c 5, a Bet v 6-related food allergen, from pear; the proteins were expressed as His-Tag fusion proteins in Eschershia coli and purified by Ni-chelate affinity chromatography under native conditions. Nonfusion proteins were obtained by factor Xa protease treatment. The highest degree of amino-acid sequence identity of Pyr c 5 and Bet v 6 was found with a plant protein related to a defense mechanism, which we have named phenylcoumaran benzylic ether reductase (PCBER) based on its ability to catalyze the NADPH-dependent reduction of 8-5' linked lignans such as dehydrodiconiferyl alcohol to give isodihydrodehydrodiconiferyl alcohol. Enzymatic assays with recombinant Pyr c 5 and Bet v 6 showed PCBER catalytic activity for both recombinant allergens. Both Pyr c 5 and Bet v 6 allergens had similar IgE binding characteristics in immunoblotting and enzyme allergosorbent tests (EAST), and bound IgE from 10 sera of birch-pollen-allergic patients including six pear-allergic subjects. EAST inhibition experiments with Pyr c 5 as the solid phase antigen suggested that homologous allergens may be present in many vegetable foods such as apple, peach, orange, lychee fruit, strawberry, persimmon, zucchini (courgette), and carrot. In extracts of pear, apple, orange, and persimmon, the presence of proteins of approximately 30-35 kDa containing Bet v 6 cross-reactive epitopes was demonstrated with two Bet v 6-specific monoclonal antibodies. Recombinant Pyr c 5 triggered a strong, dose-dependent mediator release from basophils of a pear-allergic subject, suggesting that Pyr c 5 has the potential to elicit type I allergic reactions. (+info)Comparative analysis of pollen counts of Corylus, Alnus and Betula in Szczecin, Warsaw and Lublin (2000-2001). (3/167)
The aim of the study was to compare the airborne concentrations of allergenic pollen produced by three early flowering tree taxa (Corylus, Alnus, Betula) in the cities of Warsaw (central Poland), Lublin (eastern Poland) and Szczecin (western Poland) during the years 2000-2001. Measurements were performed by the volumetric method. Pollen seasons were defined as the periods in which 95% of the total catch occurred. The highest concentration and annual pollen count of Corylus was measured in Lublin in both seasons, while the highest annual pollen counts of Alnus and Betula were noted in Warsaw, where the annual pollen count of Betula in 2001 was four times higher than in 2000 and equalled 5,376 grains in m3 per 24 h. Significant differences in the pollen count of the examined taxa were observed between two seasons: the pollen count of Corylus was higher in 2000 than in 2001, while for Alnus and Betula the opposite was the case. The longest pollen seasons were observed at low annual pollen counts for the pollen of Corylus. Results of the study reveal significant differences between the seasons and the cities. The differences concern the dates of the appearance of pollen grains in the air, the duration of the presence of sporomorphs and the maximum concentrations in particular seasons. The pollen counts of alder, birch and hazel trees are determined by the weather, diversity of local flora and specific rhythm of pollination of particular taxa. (+info)Mast cell alpha-chymase reduces IgE recognition of birch pollen profilin by cleaving antibody-binding epitopes. (4/167)
In sensitized individuals birch pollen induces an allergic response characterized by IgE-dependent mast cell degranulation of mediators, such as alpha-chymase and other serine proteases. In birch and other plant pollens, a major allergen is profilin. In mammals, profilin homologues are found in an intracellular form bound to cytoskeletal or cytosolic proteins or in a secreted form that may initiate signal transduction. IgE specific to birch profilin also binds human profilin I. This cross-reactivity between airborne and endogenous proteins may help to sustain allergy symptoms. The current work demonstrates that cultured mast cells constitutively secrete profilin I, which is susceptible to degranulation-dependent proteolysis. Coincubation of chymase-rich BR mastocytoma cells with Ala-Ala-Pro-Phe-chloromethylketone (a chymase inhibitor) blocks profilin cleavage, which does not occur in degranulated HMC-1 mast cells, which are rich in tryptase, but chymase deficient. These data implicate chymase as the serine protease cleaving secreted mast cell profilin. Sequencing of chymase-cleaved profilins reveals hydrolysis at Tyr(6)-Val(7) and Trp(35)-Ala(36) in birch profilin and at Trp(32)-Ala(33) in human profilin, with all sites lying within IgE-reactive epitopes. IgE immunoblotting studies with sera from birch pollen-allergic individuals demonstrate that cleavage by chymase attenuates binding of birch profilin to IgE. Thus, destruction of IgE-binding epitopes by exocytosed chymase may limit further mast cell activation by this class of common plant allergens, thereby limiting the allergic responses in sensitized individuals. (+info)Morphological, cytogenetic, and molecular evidence for introgressive hybridization in birch. (5/167)
Extensive morphological variation of tetraploid birch (Betula pubescens) in Iceland is believed to be due to gene flow from diploid dwarf birch (B. nana) by means of introgressive hybridization. A combined morphological and cytogenetic approach was used to investigate this phenomenon in two geographically separated populations of natural birch woodland in Iceland. The results not only confirmed introgressive hybridization in birch, but also revealed bidirectional gene flow between the two species via triploid interspecific hybrids. The populations showed continuous morphological variation connecting the species, but karyotypically they consisted of only three types of plants: diploids, triploids, and tetraploids. No aneuploids were found. Some of the tetraploid plants had B. pubescens morphology as expected, but most of them had intermediate characters. Most of the diploid plants were B. nana, but some were intermediates and a few had B. pubescens morphology. The triploid plants were either intermediates or they resembled one of the two species. Similar introgressive variation was observed among the diploid and triploid progeny of open-pollinated B. nana in a garden. Birch samples including field plants and artificial hybrids were further examined using a molecular method based on genomic Southern hybridization. The experiments verified introgression at the DNA level. (+info)Leaf structural and photosynthetic characteristics, and biomass allocation to foliage in relation to foliar nitrogen content and tree size in three Betula species. (6/167)
Young trees 0.03-1.7 m high of three coexisting Betula species were investigated in four sites of varying soil fertility, but all in full daylight, to separate nutrient and plant size controls on leaf dry mass per unit area (MA), light-saturated foliar photosynthetic electron transport rate (J) and the fraction of plant biomass in foliage (F(L)). Because the site effect was generally non-significant in the analyses of variance with foliar nitrogen content per unit dry mass (N(M)) as a covariate, N(M) was used as an explaining variable of leaf structural and physiological characteristics. Average leaf area (S) and dry mass per leaf scaled positively with N(M) and total tree height (H) in all species. Leaf dry mass per unit area also increased with increasing H, but decreased with increasing N(M), whereas the effects were species-specific. Increases in plant size led to a lower and increases in N(M) to a greater FL and total plant foliar area per unit plant biomass (LAR). Thus, the self-shading probably increased with increasing N(M) and decreased with increasing H. Nevertheless, the whole-plant average M(A), as well as M(A) values of topmost fully exposed leaves, correlated with N(M) and H in a similar manner, indicating that scaling of MA with N(M) and H did not necessarily result from the modified degree of within-plant shading. The rate of photosynthetic electron transport per unit dry mass (J(M)) scaled positively with N(M), but decreased with increasing H and M(A). Thus, increases in M(A) with tree height and decreasing nitrogen content not only resulted in a lower plant foliar area (LAR = F(L)/M(A)), but also led to lower physiological activity of unit foliar biomass. The leaf parameters (J(M), N(M) and M(A)) varied threefold, but the whole-plant characteristic FL varied 20-fold and LAR 30-fold, indicating that the biomass allocation was more plastically adjusted to different plant internal nitrogen contents and to tree height than the foliar variables. Our results demonstrate that: (1) tree height and N(M) may independently control foliar structure and physiology, and have an even greater impact on biomass allocation; and (2) the modified within-plant light availabilities alone do not explain the observed patterns. Although there were interspecific differences with respect to the statistical significance of the relationships, all species generally fit common regressions. However, these differences were consistent, and suggested that more competitive species with inherently larger growth rates also more plastically respond to N and H. (+info)Hydrogen peroxide activates cell death and defense gene expression in birch. (7/167)
The function of hydrogen peroxide (H(2)O(2)) as a signal molecule regulating gene expression and cell death induced by external stresses was studied in birch (Betula pendula). Ozone (O(3)), Pseudomonas syringae pv syringae (Pss), and wounding all induced cell death of various extents in birch leaves. This was temporally preceded and closely accompanied by H(2)O(2) accumulation at, and especially surrounding, the lesion sites. O(3) and Pss, along with an artificial H(2)O(2) producing system glucose (Glc)/Glc oxidase, elicited elevated mRNA levels corresponding to genes encoding reactive oxygen species detoxifying enzymes, Pal, Ypr10, and mitochondrial phosphate translocator 1. In addition to the regulation of gene expression, Glc/Glc oxidase also induced endogenous H(2)O(2) production in birch leaves, accompanied by cell death that resembled O(3) and Pss damage. Wound-induced gene expression differed from that induced by O(3) and Pss. Thus, it appears that at least two separate defense pathways can be activated in birch leaves by stress factors, even though the early H(2)O(2) accumulation response is common among them all. (+info)Xylem ray parenchyma cells in boreal hardwood species respond to subfreezing temperatures by deep supercooling that is accompanied by incomplete desiccation. (8/167)
It has been accepted that xylem ray parenchyma cells (XRPCs) in hardwood species respond to subfreezing temperatures either by deep supercooling or by extracellular freezing. Present study by cryo-scanning electron microscopy examined the freezing responses of XRPCs in five boreal hardwoods: Salix sachalinensis Fr. Schmit, Populus sieboldii Miq., Betula platyphylla Sukat. var japonica Hara, Betula pubescens Ehrh., and red osier dogwood (Cornus sericea), in which XRPCs have been reported to respond by extracellular freezing. Cryo-scanning electron microscopy observations revealed that slow cooling of xylem to -80 degrees C resulted in intracellular freezing in the majority of XRPCs in S. sachalinensis, an indication that these XRPCs had been deep supercooled. In contrast, in the majority of XRPCs in P. sieboldii, B. platyphylla, B. pubescens, and red osier dogwood, slow cooling to -80 degrees C produced slight cytorrhysis without clear evidence of intracellular freezing, suggesting that these XRPCs might respond by extracellular freezing. In these XRPCs exhibited putative extracellular freezing; however, deep etching revealed the apparent formation of intracellular ice crystals in restricted local areas. To confirm the occurrence of intracellular freezing, we rewarmed these XRPCs after cooling and observed very large intracellular ice crystals as a result of the recrystallization. Thus, the XRPCs in all the boreal hardwoods that we examined responded by deep supercooling that was accompanied with incomplete desiccation. From these results, it seems possible that limitations to the deep-supercooling ability of XRPCs might be a limiting factor for adaptation of hardwoods to cold climates. (+info)'Betula' is the genus name for a group of trees commonly known as birches. These trees belong to the family Betulaceae and are native to the cooler regions of the Northern Hemisphere. There are around 30-60 species in this genus, depending on the classification system used.
Birch trees are known for their distinctive bark, which is often white and peels away in thin layers. They also have simple, ovate leaves that are usually toothed or serrated along the edges. Many birches produce catkins, which are long, slender flowering structures that contain either male or female flowers.
Birch trees have a number of uses, both practical and cultural. The wood is lightweight and easy to work with, making it popular for uses such as furniture-making, paper production, and fuel. Birch bark has also been used historically for a variety of purposes, including canoe construction, writing surfaces, and medicinal remedies.
In addition to their practical uses, birch trees have cultural significance in many regions where they grow. For example, they are often associated with renewal and rebirth due to their ability to regrow from stumps or roots after being cut down. In some cultures, birch trees are also believed to have spiritual or mystical properties.
"Alnus" is a genus of flowering plants in the family Betulaceae, commonly known as alders. They are deciduous or evergreen trees or shrubs with simple, alternate leaves and catkins. The term "Alnus" itself is the genus name and does not have a medical definition. However, various species of alders have been used in traditional medicine for their anti-inflammatory, astringent, and diuretic properties. For example, the bark of Alnus glutinosa (common alder) has been used to treat skin diseases, wounds, and diarrhea. It is important to note that the use of alders in modern medicine is limited and further research is needed to establish their safety and efficacy.
Betulaceae is a family of flowering plants that includes birch, alder, and hornbeam trees and shrubs. It is commonly known as the birch family. These plants are characterized by their simple, alternate leaves, small catkins (flowers), and woody fruits. They are widely distributed in temperate and subarctic regions of the Northern Hemisphere.
In a medical context, Betulaceae may be mentioned in relation to the use of certain plant parts for medicinal purposes. For example, the bark of some birch trees contains salicylic acid, which has been used in the treatment of pain and inflammation. However, it is important to note that the use of any herbal remedy should be discussed with a healthcare provider beforehand, as they can interact with other medications and have potential side effects.
'Corylus' is the medical term for the genus of plants that includes hazelnuts and filberts. These trees and shrubs are part of the Betulaceae family, which also includes birch and alder trees. The nuts produced by Corylus species are a valuable food source for both humans and wildlife.
The most commonly cultivated species of Corylus is the European hazelnut (Corylus avellana), which is native to Europe and western Asia. This species is grown commercially in many parts of the world for its sweet, edible nuts. The North American beaked hazelnut (Corylus cornuta) and the North American round-leaf hazelnut (Corylus americana) are also cultivated to a lesser extent for their nuts.
In addition to their nutritional value, Corylus species have been used in traditional medicine for centuries. The bark, leaves, and nuts of these plants contain various compounds that have been found to have anti-inflammatory, antioxidant, and antimicrobial properties. However, more research is needed to fully understand the potential health benefits of Corylus species and their active constituents.
"Larix" is not a medical term. It is the genus name for a group of trees commonly known as larches, which belong to the family Pinaceae. These deciduous conifers are native to the cooler temperate regions of the Northern Hemisphere. They are known for their needle-like leaves and cone-bearing fruits.
While not directly related to human health or medicine, certain compounds derived from plants in the Larix genus have been studied for potential medicinal properties. For example, extracts from larch bark have been investigated for their anti-inflammatory, antioxidant, and wound-healing effects. However, it is important to note that these studies are still in the preliminary stages, and more research is needed before any definitive conclusions can be drawn about the medicinal applications of Larix species.
"Abies" is a genus of evergreen trees that are commonly known as firs. They belong to the family Pinaceae and are native to the northern hemisphere, primarily in North America, Europe, and Asia. These trees are characterized by their needle-like leaves, which are flat and shiny, and their conical-shaped crowns.
Firs have been used for various purposes throughout history, including timber production, Christmas tree farming, and ornamental landscaping. Some species of firs also have medicinal properties, such as the use of Abies balsamea (balsam fir) in traditional medicine to treat respiratory ailments and skin conditions. However, it's important to note that the medical use of firs should be done under the guidance of a healthcare professional, as improper use can lead to adverse effects.
I'm sorry for any confusion, but "trees" is not a medical term. It is a common term used in various fields, including biology, ecology, and dendrology, to refer to a woody perennial plant with a single stem or trunk that supports branches and leaves in most species.
If you have any questions related to medical terminology or health-related topics, please provide more context so I can offer an accurate and helpful response.
Pollen, in a medical context, refers to the fine powder-like substance produced by the male reproductive organ of seed plants. It contains microscopic grains known as pollen grains, which are transported by various means such as wind, water, or insects to the female reproductive organ of the same or another plant species for fertilization.
Pollen can cause allergic reactions in some individuals, particularly during the spring and summer months when plants release large amounts of pollen into the air. These allergies, also known as hay fever or seasonal allergic rhinitis, can result in symptoms such as sneezing, runny nose, congestion, itchy eyes, and coughing.
It is important to note that while all pollen has the potential to cause allergic reactions, certain types of plants, such as ragweed, grasses, and trees, are more likely to trigger symptoms in sensitive individuals.
I'm sorry for any confusion, but "Fraxinus" is not a medical term. It is the genus name for ash trees in the plant kingdom. If you have any questions about medical terminology or concepts, I would be happy to try and help answer those for you!
"Salix" is the genus name for a group of plants commonly known as willows. These are deciduous trees and shrubs that belong to the family Salicaceae. While "Salix" is not a medical term itself, certain species of willow have been used in medicine for their medicinal properties.
For instance, the bark of white willow (Salix alba) contains salicin, which has anti-inflammatory and analgesic effects similar to aspirin. The use of willow bark extract as a natural pain reliever and fever reducer dates back thousands of years in various traditional medicine systems.
However, it's important to note that the modern medical definition of "salicylate" refers to a group of compounds that includes both naturally occurring substances like salicin found in willow bark and synthetic derivatives such as aspirin (acetylsalicylic acid). These compounds share similar therapeutic properties and are used to treat pain, inflammation, and fever.
An allergen is a substance that can cause an allergic reaction in some people. These substances are typically harmless to most people, but for those with allergies, the immune system mistakenly identifies them as threats and overreacts, leading to the release of histamines and other chemicals that cause symptoms such as itching, sneezing, runny nose, rashes, hives, and difficulty breathing. Common allergens include pollen, dust mites, mold spores, pet dander, insect venom, and certain foods or medications. When a person comes into contact with an allergen, they may experience symptoms that range from mild to severe, depending on the individual's sensitivity to the substance and the amount of exposure.
Betula halophila
Betula chichibuensis
Betula uber
Aureoboletus betula
Betula albosinensis
Betula occidentalis
Betula populifolia
Betula murrayana
Betula minor
Betula platyphylla
Betula globispica
Betula pendula
Betula celtiberica
Betula alnoides
Betula glandulosa
Betula costata
Betula schmidtii
Betula pumila
Betula pubescens
Betula alleghaniensis
Betula fruticosa
Betula humilis
Betula dahurica
Betula lenta
Betula szechuanica
Betula maximowicziana
Betula grossa
Betula utilis
Betula ermanii
Betula Beach
Betula halophila - Wikipedia
Buy Fatum Betula + Food Truck Tycoon | Xbox
Betula falcata - Wikispecies
Betula schmidtii Schmidt's Birch PFAF Plant Database
Betula dahurica var. parvifolia - Wikispecies
fatum betula Archives - Gaming Age
Betula - Genus | Wayside Gardens
Betula Blush & Rose Gold Wallpaper
Betula in Flora of North America @ efloras.org
Betula pendula Calflora
Betula halophila | International Plant Names Index
Betula japonica Thunb. - The Plant List
Dura Heat® River Birch, Betula nigra 'BNMTF', Monrovia Plant
Betula alleghaniensis; Yellow Birch
The Betula Chair | DeMilked
Growth response of Betula pubescens Ehrh. to varying disturbance factors in northern Norway | Trees
Betula ('Penci-2') ROYAL FROST - Havlis.cz
Betula pendula (syn. Betula alba) 'KARACA' - Havlis.cz
Betula papyrifera - Plant Finder
Betula pendula - Drepanidae Herbivores
Care guide for the Birch Bonsai tree (Betula) - Bonsai Empire
Smallflower Birch Leaves - Cut (Betula pendula) (8 oz)
Betula utilis var jacquemontii 'Doorenbos'
Betula nana plants | Thompson & Morgan
Betula insignis | Pan Global Plants
Betula davurica - Deciduous - Dahurian Birch
Yellow Birch (Betula alleghaniensis) - Tree Canada
Pendula2
- Betula pendula) or Silver Birch is an elegant, deciduous tree with simple opposing leaves and delicate white bark that peels off in layered sections. (smallflower.com)
- Betula pendula , or European White Birch, has a pyramidal form when young, more oval as it matures, and is noted for its white bark, which exfoliates in papery strips, and for its drooping or pendulous branches. (ncsu.edu)
Betulaceae2
- Betula halophila is a species of plant in the Betulaceae family. (wikipedia.org)
- Molecular phylogeny and genome size evolution of the genus Betula (Betulaceae). (wikimedia.org)
Alleghaniensis2
- The photographer's identification Betula alleghaniensis has not been reviewed. (berkeley.edu)
- Some Physiological Effects of Fenitrothion on the Germination and Seedling Growth of Betula alleghaniensis Britt. (gc.ca)
Genus1
- Betula is Latin for birch and describes a genus of about 60 species of deciduous trees and shrubs found in many gardens and landscapes throughout the northern hemisphere. (ncsu.edu)
Nigra1
- River birch ( see Betula nigra ) is a better selection for St. Louis. (missouribotanicalgarden.org)
Species3
- New species of Birch ( Betula L. ) from Central Asia and Kazakhstan. (wikimedia.org)
- The German Commission E Monographs, a therapeutic guide to herbal medicine, approve Betula species for infections of the urinary tract, kidney and bladder stones, rheumatism (see [302] for critics of commission E). (pfaf.org)
- In our study, we examined trees of the species Betula pubescens Ehrh. (springer.com)
Lenta1
- Betula lenta is a birch tree which is native to Eastern North America. (ericanotebook.com)
Papyrifera1
- Betula papyrifera , commonly called paper birch or canoe birch, is primarily native to the cold climates of Canada and Alaska (USDA Zones 1-3), with its range dipping down into a few of the northern U.S. states (USDA Zones 4-5A) and further south in the mountains (to Colorado in the Rockies and to North Carolina in the Appalachians). (missouribotanicalgarden.org)
Utilis2
- A fantastic tree and one of our most popular Birch, Betula utilis var jacquemontii 'Doorenbos' is a slender, fast growing birch with particularly fine peeling white bark, even on quite young specimens. (bluebellnursery.com)
- Betula utilis 'Doorenbos' grows to be a medium sized tree with a slender habit. (bluebellnursery.com)
Pubescens2
- Growth response of Betula pubescens Ehrh. (springer.com)
- Betula pubescens dominates the medium-height canopy of this community, usually accompanied by Sorbus aucuparia (mean canopy height = 14.7 m, n = 61). (biodiversityireland.ie)
Fatum Betula4
- Immerse yourself in a world of magic and culinary mastery with the enchanting Fatum Betula + Food Truck Tycoon Bundle on Xbox! (xbox.com)
- Fatum Betula: Explore a mysterious world without a past, dictated by a magical birch tree. (xbox.com)
- Unleash the power of magic in Fatum Betula and dominate the culinary world in Food Truck Tycoon! (xbox.com)
- If you like having no idea what?s going on, you?ll love Fatum Betula. (gaming-age.com)
Plants1
- 2023. Betula falcata in Kew Science Plants of the World Online . (wikimedia.org)
Subgenus1
- Betula halophila is a tetraploid, placed in section Betula, subgenus Betula. (wikipedia.org)
Populifolia1
- ROYAL FROST je obchodn jm no velmi atraktivn b zy , kter vznikla k en m b lokor b zy betula populifolia „Whitespire" a ervenolist b zy betula „Crimson Frost" . (havlis.cz)
Doorenbos1
- 2 or 3 Betula 'Doorenbos' can be planted together in the same hole to create and attractive multi-trunked look as they gradually fuse together at the base. (bluebellnursery.com)
Regel1
- Betula schmidtii - Regel. (pfaf.org)
Sect3
- Betula sect. (wikimedia.org)
- The mostly circumboreal Betula sect. (efloras.org)
- A third line, Betula sect. (efloras.org)
Birch tree1
- A lupane-type triterpene derivative of betulin which was originally isolated from BETULA or birch tree. (bvsalud.org)
Shrub1
- Betula nana has a low spreading habit with stiff stems that form a dense shrub. (thompson-morgan.com)
Nana2
- Photo: Betula nana 4. (henriettes-herb.com)
- Betula nana L. (henriettes-herb.com)
Deciduous1
- Betula schmidtii is a deciduous Tree growing to 30 m (98ft 5in) at a fast rate. (pfaf.org)
Native1
- Native to northeastern Asia, Betula davurica is a welcomed addition to parks, lawns, commercial properties and any spot that wishes to feature a stunning scene of nature. (sheffields.com)
Trees2
- Betula consists of small to medium trees with rather large thin leaves and fruits with wide wings (wider than the fruit body). (efloras.org)
- The freshly pruned Betula which will grow with a multi-stemmed habit are young trees and are not for instant gratification. (bluebellnursery.com)
Commonly1
- Advertise your green spaces with the captivating presence of Betula davurica, commonly known as the Dahurian Birch or Asian Black Birch. (sheffields.com)
Moderate1
- Water Birch (Betula occidentalis) is a moderate allergen. (pollenlibrary.com)
Menu1
- Betula is a casual, chef driven restaurant in downtown Dundas that serves a seasonal and thoughtful menu. (betularestaurant.com)