Avicennia
Combretaceae
A study of some biochemical and histopathological responses of wet-stored recalcitrant seeds of Avicennia marina infected by Fusarium moniliforme. (1/46)
Although fungi cause a recognized problem during storage of recalcitrant seeds of many tropical species, there are no data to date on defence strategies of these seeds against fungal attack. To ascertain whether recalcitrant seeds of Avicennia marina elaborate compounds that might suppress fungal proliferation during hydrated storage, the production and efficacy of beta-1,3-glucanase (EC 3.2.1.39) and chitinase (EC 3.2.1.14) were studied in relation to histopathological changes. Freshly harvested seeds had low beta-1,3-glucanase and chitinase activities and fluorescence microscopy revealed progressive deterioration of the internal tissues of these seeds associated with fungal infection during hydrated storage. In seeds treated to minimize associated fungi (clean seeds), beta-1,3-glucanase and chitinase activities increased significantly during 10 d of hydrated storage. Similar high levels of activity were observed when these seeds were experimentally infected with Fusarium moniliforme and subjected to further storage. The histopathological observations indicated delayed disease development in the 10-d clean-storage period, although the hypersensitive response was not observed. The results suggest that, although the recalcitrant seeds of A. marina elaborate some antifungal enzymes, there is a lack of effective defence strategies that might lead to successful responses against fungal infections. (+info)Genetic variation of Avicennia marina (Forsk.) Vierh. (Avicenniaceae) in Vietnam revealed by microsatellite and AFLP markers. (2/46)
Genetic variation of Avicennia marina in the costal area of Vietnam was examined using microsatellite and AFLP markers. By using five microsatellite loci a total of 21 alleles were detected. The average number of alleles per locus per population ranged from 1.667 to 3.000. The observed heterozygosity varied from 0.180 to 0.263, with an average of 0.210 indicating relatively low level of genetic variation comparing to the previous studies on A. marina in the worldwide range. The expected heterozygosity was larger than the observed heterozygosity leading to positive inbreeding coefficients in all the six populations. Highly significant departures from Hardy-Weinberg Equilibrium were detected in four populations. AFLP analysis revealed a total of 386 loci, of which 232 (60.1%) were polymorphic. In congruent with microsatellite markers relatively low levels of genetic variation were detected at both gene and nucleotide levels (H = 0.086; pi = 0.0054). Reduced level of genetic variation was found in the central population, and in the southern populations. Both microsatellite and AFLP markers revealed large genetic differentiation (F(ST) = 0.262 and 0.338, respectively) indicating strong genetic structure among regional populations. Pairwise genetic distance by AFLP showed two populations in the north and the other two in the south are closely related each other. (+info)Correlation between anammox activity and microscale distribution of nitrite in a subtropical mangrove sediment. (3/46)
The distribution of anaerobic ammonium oxidation (anammox) in nature has been addressed by only a few environmental studies, and our understanding of how anammox bacteria compete for substrates in natural environments is therefore limited. In this study, we measure the potential anammox rates in sediment from four locations in a subtropical tidal river system. Porewater profiles of NO(x)(-) (NO2- plus NO3-) and NO2- were measured with microscale biosensors, and the availability of NO2- was compared with the potential for anammox activity. The potential rate of anammox increased with increasing distance from the mouth of the river and correlated strongly with the production of nitrite in the sediment and with the average concentration or total pool of nitrite in the suboxic sediment layer. Nitrite accumulated both from nitrification and from NO(x)(-) reduction, though NO(x)(-) reduction was shown to have the greatest impact on the availability of nitrite in the suboxic sediment layer. This finding suggests that denitrification, though using NO2- as a substrate, also provides a substrate for the anammox process, which has been suggested in previous studies where microscale NO2- profiles were not measured. (+info)Global voices of science: Mangroves, fishponds, and the quest for sustainability. (4/46)
Aquaculture, the farming of shrimp and other useful aquatic and marine plants and animals in artificially confined and tended ponds, pens, and cages, ranks as a phenomenal success story in global food production. In 1975, aquaculture contributed 8% to the overall yield of the world's fish harvest; now it provides more than one-third of the yield. Total aquaculture production in 2003 was 54.8 million metric tons valued at 67.3 billion in U.S. dollars. More than 90% of this output comes from Asia, where aquaculture has its origins and where this month's essay author has lived and worked all of her life. In her essay, Jurgenne H. Primavera, senior scientist of the Aquaculture Department of the Southeast Asian Fisheries Development Center based in Iloilo, Central Philippines, traces the recent history of aquaculture and the socioeconomic and environmental challenges that its rapid growth has wrought, especially for the mangrove ecosystems in which much of brackishwater pond aquaculture occurs. With an eye on all stakeholders, Primavera lays out how aquaculture is now falling short of the goal of sustainability and what steps might be taken to move the industry in that direction. (+info)Factors contributing to dwarfing in the mangrove Avicennia marina. (5/46)
BACKGROUND AND AIMS: In Richards Bay, South Africa, Avicennia marina frequently exhibits a distinct productivity gradient, with tree height decreasing markedly from 6-10 m in the fringe zone to <1.5 m in the dwarf zone which is 120 m inland at a slightly higher elevation. In this investigation, soil physico-chemical conditions between fringe and dwarf A. marina were compared and the constraints imposed by any differences on mangrove ecophysiology and productivity determined. METHODS: Soil and plant samples were analysed for inorganic ions using spectrophotometry. Gas exchange measurements were taken with an infrared gas analyser and chlorophyll fluorescence with a fluorometer. Xylem psi was determined with a pressure chamber and chlorophyll content with a chlorophyll absorbance meter. RESULTS: In the dwarf site, soil salinity, total cations, electrical conductivity and soil concentrations of Na(+), K(+), Ca(2+), Mg(2+), Zn(2+), Mn(2+) and Cu(2+) were significantly higher than those in the fringe zone. Soil water potential and the concentration of soil P, however, were significantly lower in the dwarf site. In the leaves, Na(+) was the predominant ion and its concentration was 24 % higher in dwarf than fringe mangroves. Leaf concentrations of K(+), Ca(2+), Mg(2+), Mn(2+) and P, however, were significantly lower in dwarf mangroves. Photosynthetic performance, measured by gas exchange and chlorophyll fluorescence, was significantly reduced in the dwarf plants. CONCLUSIONS: The results suggest that hydro-edaphic factors contribute to high soil salinities, low water potentials, water stress and ion imbalance within tissues including P deficiency, which in interaction, contribute to dwarfing in Avicennia marina. (+info)Analysing ethnobotanical and fishery-related importance of mangroves of the East-Godavari Delta (Andhra Pradesh, India) for conservation and management purposes. (6/46)
Mangrove forests, though essentially common and wide-spread, are highly threatened. Local societies along with their knowledge about the mangrove also are endangered, while they are still underrepresented as scientific research topics. With the present study we document local utilization patterns, and perception of ecosystem change. We illustrate how information generated by ethnobiological research can be used to strengthen the management of the ecosystem. This study was conducted in the Godavari mangrove forest located in the East-Godavari District of the state Andhra Pradesh in India, where mangroves have been degrading due to over-exploitation, extensive development of aquaculture, and pollution from rural and urbanized areas (Kakinada).One hundred interviews were carried out among the fisherfolk population present in two mangrove zones in the study area, a wildlife sanctuary with strong conservation status and an adjacent zone. Results from the interviews indicated that Avicennia marina (Forsk.) Vierh., a dominant species in the Godavari mangroves, is used most frequently as firewood and for construction. Multiple products of the mangrove included the bark of Ceriops decandra (Griff.) Ding Hou to dye the fishing nets and improve their durability, the bark of Aegiceras corniculatum (L.) Blanco to poison and catch fish, and the leaves of Avicennia spp. and Excoecaria agallocha L. as fodder for cattle. No medicinal uses of true mangrove species were reported, but there were a few traditional uses for mangrove associates. Utilization patterns varied in the two zones that we investigated, most likely due to differences in their ecology and legal status. The findings are discussed in relation with the demographic and socio-economic traits of the fisherfolk communities of the Godavari mangroves and indicate a clear dependency of their livelihood on the mangrove forest.Reported changes in the Godavari mangrove cover also differed in the two zones, with significantly less perceptions of a decrease in the protected area, as compared to the adjacent non-protected area. A posteriori comparisons between sequential satellite imagery (retrospective till 1977) and respondents that were at least 15 years back then, revealed a mangrove decrease which was however perceived to different extents depending on the area with which the fishermen were familiar. While local needs had not been incorporated in the existing policy, we created a framework on how data on ethnobotanical traditions, fishery-related activities and local people's perceptions of change can be incorporated into management strategies. (+info)Paleoenvironment interpretation of a 1760 years B.P. old sediment in a mangrove area of the Bay of Guanabara, using pollen analysis. (7/46)
A sediment sample was obtained at 122 cm from the top of a drilling core in the Guapimirim mangrove, Bay of Guanabara, and analyzed using pollen analysis. This muddy core reached a sandy ground at 133 cm. 14C datation got the age of 1760 +/- 50 years B.P. The most frequent pollen grains were mangrove species of Rhizophora mangle, Laguncularia racemosa and Avicennia schaueriana. "Restinga" and tropical rain forest vegetation was recognized behind the mangrove. After the last sea transgression at 2500 years B.P., the water level lowered to its actual size, allowing the installation of this mangrove. (+info)Purification and partial characterization of an acidic polysaccharide with complement fixing ability from the stems of Avicennia marina. (8/46)
An acidic polysaccharide fraction that had high anticomplementary activity was isolated from the stems of Grey Mangrove in 0.15% yield. The final fractions was designated HAM-3-IIb-II. The polysaccharide fraction appeared to be homogenous by high performance size exclusion chromatography with an estimated molecular weight of 105 kDa. The isolated polysaccharide is more effective than polysaccharide K (PSK) in its anticomplementary activity at 58 microg/ml of PSK and 23 microg/ml of HAM-3-IIb-II that inhibit 50% of complement activity in the complement fixation assay. Structural studies indicated that HAM-3-IIb-II was rich in galacturonic acid along with arabinose, galactose and rhamnose, characterizing a pectin-type polysaccharide, which was also confirmed by FT-IR spectrum. The presence of rich neutral sugar side chains of arabinogalactans may have contributed to the expression of high activity. Traditionally, this mangrove plant is used for medicinal purposes and it appears to have some scientific applications. (+info)"Avicennia" is a genus of flowering plants in the family Acanthaceae, commonly known as mangrove trees. The name "Avicennia" comes from the Persian physician and philosopher Avicenna (Ibn Sina), who wrote about the medicinal properties of the tree in his works. These trees are adapted to grow in coastal areas that are flooded by high tides, and they play an important role in protecting coastlines from erosion and providing habitat for a variety of wildlife. Some species of Avicennia are also used in traditional medicine and for other purposes, such as timber and tannin production.
Combretaceae is a family of flowering plants, also known as the combretum family or shrubs and small trees. It includes approximately 600 species across 30 genera, which are primarily found in tropical and warm temperate regions around the world. The plants in this family have simple, opposite leaves and flowers that are usually arranged in spikes or racemes. They produce fruits that are typically woody and have various shapes and sizes depending on the genus. Some of the well-known genera in Combretaceae include Combretum, Terminalia, Anogeissus, and Buchenavia. The plants in this family have a variety of uses, including medicinal, timber, tannin, and ornamental purposes.
Rhizophoraceae is a family of flowering plants, commonly known as mangrove family. It includes several genera of trees and shrubs that are adapted to grow in the brackish water of coastal swamps and estuaries in tropical and subtropical regions around the world. The plants in this family have specialized root systems, called prop roots or stilt roots, which provide support and help the plants take in oxygen from the air. They also have thick, leathery leaves that are resistant to saltwater. Some of the well-known genera in Rhizophoraceae include Rhizophora, Bruguiera, Ceriops, and Kandelia.
Avicennia
Avicennia integra
Avicennia schaueriana
Avicennia rumphiana
Avicennia bicolor
Avicennia officinalis
Avicennia alba
Avicennia balanophora
Avicennia marina
Avicennia germinans
Gibberula mariscali
Gibberula raquelae
Gibberula madbelono
Mitromorpha sanctaluciaensis
Gibberula eloinae
Prunum cahuitaense
Gibberula
Crassispira quadrifasciata
Eubranchus vascoi
Gibberula baisrei
Mirpurina verdensis
Osvaldoginella hoffi
Volvarina enrici
Polystira cubacaribbaea
Tritonia hirondelle
Antillotrecha
Intelcystiscus yemayae
Gibberula nuryana
Polystira juangrinensis
Falsuszafrona belkisae
Avicennia - Wikipedia
Avicennia marina (mangrove) leaf | Nikon's Small World
Mangroves, Avicennia Marina, (Blue Carbon) in the City of Abu Dhabi, UAE | GRID-Arendal
Avicennia marina | The Dictionary of Sydney
Frontiers | The Right Place at the Right Time: Seasonal Variation of Bacterial Communities in Arid Avicennia marina Soils in...
Variations in water use by a mature mangrove of Avicennia germinans, French Guiana | Annals of Forest Science
Rawene Mangrove Walkway and boardwalk through mangrove forest (Avicennia marina var. australasica) on the foreshore of the...
ACANTHACEAE Avicennia germinans - Insidewood Images
AVICENNIA+MARINA | Search | Atlas of Living Australia
OPUS 4 | Aspects of the reproductive ecology of a south-east Australian Avicennia marina mangrove community - flower visitors...
APNI - Avicennia
Unlocking Brain Secrets - Avicennia
Avicennia - Broadleaf - Exlevel Forum
Copper Accumulation on Avicennia marina In Tapak, Tugurejo, Semarang, Indonesia | Martuti | Waste Technology
Four new jacaranone analogs from the fruits of a Beibu Gulf mangrove Avicennia marina<...
Avicennia marina - Useful Tropical Plants
avicennia-bruguiera-canopy - Rainforest Journal
What is Avicennia? (with picture)
Avicennia sp. - The Linnean Collections
Avicennia Tomentosa (Soft Leaved Avicennia)
Fact sheet for Avicennia marina
AVICENNIA HOTEL | Al Amar Engineering Consultancy
Avicennia germinans - Plants of Hawaii - Starr Environmental
Buy Avicennia officinalis- Madaipattai, Orei, Oora, Uppatti-plant | Plantslive
Avicennia obovata Griff. | Plants of the World Online | Kew Science
Browsing Doutorado em Desenvolvimento e Meio Ambiente by Subject "Avicennia shaueriana"
Tree Preservation Mangrove Trimming
A high-quality genome assembly and annotation of the gray mangrove, Avicennia marina.
Germinans4
- Avicennia germinans (L.) L. Avicennia integra N.C.Duke Avicennia marina (Forssk. (wikipedia.org)
- Other notable Avicennia species include the black mangrove, A. germinans, and the Indian mangrove, A. officinalis. (homequestionsanswered.com)
- MANGROVE: Any specimen of the red (Rhizophora mangle) , black (Avicennia germinans) , or white (Laguncularia racemosa) mangroves. (broward.org)
- We compared propagule establishment and seedling growth at 2 intertidal elevations for black mangroves Avicennia germinans displaying landward expansion. (int-res.com)
Marina21
- Designation of species is made difficult by the great variations in form of Avicennia marina. (wikipedia.org)
- Avicennia marina (Forssk. (wikipedia.org)
- Avicennia marina subsp. (wikipedia.org)
- Avicennia marina var. (wikipedia.org)
- Rawene Mangrove Walkway and boardwalk through mangrove forest (Avicennia marina var. (naturespic.com)
- Search for AVICENNIA+MARINA returned 10 results. (ala.org.au)
- Sampling of day-active invertebrates visiting the flowers of Grey Mangrove Avicennia marina subsp. (uni-frankfurt.de)
- Although pollen carriage does not automatically assign the status of pollinator, nevertheless, the findings indicate Avicennia marina is pollinated by a taxonomically diverse suite of native invertebrates which sit within an assemblage of flower visitors that may include non-pollinating species. (uni-frankfurt.de)
- Comparison with additional anthophilous insect records from a previous 1990 - 1994 study in an adjacent littoral rainforest community, indicated that this community may furnish a pool of native insects from which Avicennia marina can seasonally recruit a dynamic pollinator network. (uni-frankfurt.de)
- The aim of the research was to evaluate the bioaccumulation of Cu on Avicennia marina in Tapak Semarang. (undip.ac.id)
- Results showed that Cu was found in water (0.0069 mg/l), sediment (26.760-37.889 mg/Kg), roots (2.336-7.997 mg/Kg), young leaves (2.367-6.604 mg/Kg) and old leaves (1.080-6.748 mg/Kg) of Avicennia marina . (undip.ac.id)
- It was concluded that there was an accumulation of Cu in the sediment, roots and leaves of Avicennia marina in Tapak, Tugurejo Semarang. (undip.ac.id)
- 2002). Akumulasi Logam Berat Cr dan Pb Pada Tumbuhan Mangrove Avicennia marina Di Muara Sungai Babon Perbatasan Kota Semarang dan Kabupaten Demak Jawa Tengah. (undip.ac.id)
- Bioaccumulation of Lead, Zinc and Cadmium in Avicennia marina Mangrove Ecosystem near Narmada Estuary in Vamleshwar, West Coast of Gujarat, India. (undip.ac.id)
- This is because the species Avicennia marina, commonly known as the white or gray mangrove, has many different-looking variants that can be easily mistaken for a new species. (homequestionsanswered.com)
- A high-quality genome assembly and annotation of the gray mangrove, Avicennia marina. (edu.sa)
- The gray mangrove [ Avicennia marina (Forsk. (edu.sa)
- 2007. Studi penanganan benih rekal-sitran Avicennia marina: Desikasi, Peny-impanan dan Viabilitas. (unila.ac.id)
- A Study aimed to explore cyanobacteria on pneumatophore Avicennia marina was conducted on September 2013 in mangrove ecosystem of Cagar Alam Pulau Dua (CAPD) Serang, Banten. (uny.ac.id)
- Epyphitic cyanobacteria sample were collected from nine pneumatophores of Avicennia marina at each station. (uny.ac.id)
- Biological effects of Avicennia marina (Forssk. (nih.gov)
Officinalis8
- Avicennia officinalis L. Avicennia schaueriana Stapf & Leechm. (wikipedia.org)
- Avicennia officinalis L. (biodiversity.org.au)
- Avicennia officinalis Auct. (theferns.info)
- Cited as Avicennia officinalis. (kew.org)
- High-affinity potassium transporter from a mangrove tree Avicennia officinalis increases salinity tolerance of Arabidopsis thaliana. (bvsalud.org)
- We identified and characterized a high-affinity potassium transporter gene (AoHKT1) from Avicennia officinalis. (bvsalud.org)
- We selected 12 sites in the North-Western region of the Sundarbans, along a gradient of decreasing habitat loss and human activities from forest fragments near human settlements to continuous pristine forest, where we studied insect pollinators of two mangrove plant species, Acanthus ilicifolius and Avicennia officinalis. (unimib.it)
- These are Brugiera gymnorrhiza, Avicennia officinalis, and Hebiseus taeliatious. (keralatourism.org)
Mangroves2
- Mangroves, which are small shrubs or trees characterized by root structures that grow above ground, are some of the most notable members of the Avicennia genus. (homequestionsanswered.com)
- The aerial roots of plants in the genus Avicennia are unique even among mangroves. (homequestionsanswered.com)
Acanthaceae2
- Avicennia is a genus of flowering plants currently placed in the bear's breeches family, Acanthaceae. (wikipedia.org)
- Recent phylogenetic studies have suggested that Avicennia is derived from within Acanthaceae, and the genus is included in that family in the Angiosperm Phylogeny Group system. (wikipedia.org)
Species6
- Species of Avicennia occur worldwide south of the Tropic of Cancer. (wikipedia.org)
- Eight species are currently accepted: Avicennia alba Blume Avicennia balanophora Stapf & Moldenke Avicennia bicolor Standl. (wikipedia.org)
- At least 113 of the approximately 168 species examined for pollen loads, carried Avicennia pollen. (uni-frankfurt.de)
- The canopy of a mangrove forest comprising mostly Avicennia-Bruguiera species. (rainforestjournal.com)
- Avicennia is a genus of the acanthus family comprised of about eight to 10 unique species of flowering plants. (homequestionsanswered.com)
- Instead, Avicennia species use root structures called pneumatophores that absorb oxygen from the air, allowing the tree to breathe. (homequestionsanswered.com)
Rhizophora4
- telah dilakukan pada bulan Juni sampai dengan September 2013, pengambilan sampel berupa akar Avicennia alba dan Rhizophora apiculata diambil dari Muara Sungsang, Kabupaten Banyuasin Provinsi Sumatera Selatan, sedangkan ekstraksi metabolit sekunder akar mangrove dan uji aktivitas antibakteri dilakukan di Laboratorium Mikrobiologi Jurusan Biologi Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Sriwijaya, Indralaya. (unsri.ac.id)
- Penelitian ini bertujuan untuk mendapatkan metabolit sekunder dari akar Avicennia alba dan Rhizophora apiculata yang bersifat anti Vibrio spp penyebab penyakit pada udang windu. (unsri.ac.id)
- Hasil penelitian menunjukan bahwa ekstrak yang paling berat diperoleh dari pelarut metanol Avicennia alba seberat 1, 7714 g dan pelarut metanol Rhizophora apiculata seberat 14,8460 g. (unsri.ac.id)
- Avicennia schaueriana Stapf & Leechm , Laguncularia racemosa (L.) Gaerth and Rhizophora mangle L. In the herb layer is the cordgrass Spartina alterniflor Loiseleur ( Panitz, 1997 ). (scielo.cl)
Genus Avicennia1
- ex Moldenke "Genus: Avicennia L." Germplasm Resources Information Network. (wikipedia.org)
Tomentosa1
- Avicennia tomentosa arabica Walp. (theferns.info)
Schaueriana1
- Avicennia schaueriana Stapf & Leechm. (wikipedia.org)
Atlas of Living Australia1
- cite journal}}: CS1 maint: DOI inactive as of August 2023 (link) Media related to Avicennia at Wikimedia Commons Data related to Avicennia at Wikispecies Avicennia in BoDD - Botanical Dermatology Database "Avicennia L". Atlas of Living Australia. (wikipedia.org)
Plants1
- Retrieved 2012-02-08, Avicennia L. Plants of the World Online, Kew Science. (wikipedia.org)
Alba2
- Api-api Putih (Avicennia alba) The Tide Chaser. (wikipedia.org)
- Nilai KHM ekstrak metanol Avicennia alba (Alc) terhadap bakteri Vibrio sp (MC2P5) adalah 16 ppm dengan rata-rata diameter zona bening 8,755±0,681 mm. (unsri.ac.id)
Trees2
- Avicennia trees are usually evergreen shrubs or small trees, meaning that their foliage remains green and growing throughout the year. (homequestionsanswered.com)
- Avicennia trees usually grow wild, although they are occasionally grown commercially for a wide range of uses. (homequestionsanswered.com)
Mangrove11
- Functional Anatomy of Air Conducting Network on the Pneumatophores of a Mangrove Plant, Avicennia marina (Forsk. (scialert.net)
- Avicennia officinalis L., Avicenniaceae (or Acanthaceae), is a wide spread plant in mangrove forest in Vietnam, Cambodia, Thailand, Indonesia and so on. (mahidol.ac.th)
- Latar Belakang : Daun mangrove api-api (Avicennia marina) mengandung beberapa senyawa metabolit sekunder, antara lain saponin, flavonoid, tannin, steroid dan alkaloid yang berperan dalam proses penyembuhan luka bakar. (unsoed.ac.id)
- One of the efforts that can be done to overcome the pollution of mangrove areas is to use Avicennia marina as a phytoremediation agent. (unsri.ac.id)
- This study aims to determine the potential and phytoremediation mechanism of Avicennia marina against heavy metals Cu and Pb in the mangrove area of Pulau Payung, South Sumatra. (unsri.ac.id)
- Salah satu upaya yang dapat dilakukan untuk mengatasi pencemaran kawasan mangrove adalah dengan memanfaatkan Avicennia marina sebagai agen fitoremediasi. (unsri.ac.id)
- Penelitian ini bertujuan untuk mengetahui potensi dan mekanisme fitoremediasi Avicennia marina terhadap logam berat Cu dan Pb di kawasan mangrove Pulau Payung, Sumatera Selatan. (unsri.ac.id)
- Centre de Coopération Internationale en Recherche small mangrove areas. (cdc.gov)
- Leaves of mangrove Avicennia marina subsp. (kcc.org.nz)
- Conversion of fishponds into mangrove greenbelt (mangrove species: Avicennia spp, Sonneratia sp, Rhizhophora sp, and Bruguiera sp species that naturally grow in this area). (wetlands.org)
- In one study blocks of mangrove timber and pieces of driftwood of Avicennia alba, Bruguiera cylindrica and Rhizophora apiculata were examined to identify the lignicolous fungi they hosted. (allrefer.com)
Forsk6
- Pneumatophore of Avicennia marina (Forsk. (scialert.net)
- The results confidently showed that there were two genera of endophytic bacteria inside the leaves of Avicennia marina (Forsk. (ubaya.ac.id)
- The results were beneficial to further investigate the strategy to be able to obtain sterile leaf explants of Avicennia marina (Forsk. (ubaya.ac.id)
- Degradation of polythene with bacterial isolates of rhizosphere of avicennia marina (forsk. (journalcra.com)
- 20. Leaf biochemical parameters in Avicennia marina (Forsk. (nih.gov)
- Nutrient Dynamics in an Avicennia marina (Forsk. (notulaebiologicae.ro)
Mangroves1
- Kayak through mangroves and spot crocodiles at Avicennia Island, take a dip at Funzi Sandbar, and relax in Haller Park. (kenya-airways.com)
Marina subsp1
- Avicennia marina subsp. (wikipedia.org)
Forssk2
- Avicennia marina (Forssk. (wikipedia.org)
- An Assessment of the Accumulation Potential of Pb, Zn and Cd by Avicennia marina (Forssk. (notulaebiologicae.ro)
20231
- cite journal}}: CS1 maint: DOI inactive as of August 2023 (link) Media related to Avicennia at Wikimedia Commons Data related to Avicennia at Wikispecies Avicennia in BoDD - Botanical Dermatology Database "Avicennia L". Atlas of Living Australia. (wikipedia.org)
Ecosystems1
- Koochaki chenani S, Babaie kafaki S, Kiadaliri H, Ebrahimi A, Etminan A. Genetic Diversity of Avicennia Marina in Costal Ecosystems of Southern Iran Based on Molecular Markers and Morphological Characteristics. (ac.ir)
Soil1
- In the present study, rhizosphere soil of Avicennia marina was collected from Vashi, Maharashtra, India. (journalcra.com)