Your search keyword '"FRANKENIA"' showing total 101 results

1. Effects of Irrigation with Treated Sewage Effluent on the Chemical Characterstics of Soil under the Cultivation of Ground Cover Plants (Case Study: Parand City)

Author

M. Kashi, S. Alizadeh Ajirlo, and N. Najafi

Subjects

salinity, green space, frankenia, chloride, organic carbon, Agriculture, Agriculture (General), S1-972

Abstract

The reduction of water resources due to the issue of global climate change and population growth is one of the most critical issues facing the designers and planners of the development of green spaces in cities. Against these challenges, there is an urgent need to improve the efficiency of water consumption and chain use of water resources with suitable options. Due to the significant volume of urban wastewater Effluent, its reuse in green space irrigation is important from the point of view of water resource management from an ecological and economic point of view. The effect of the Parand city wastewater treatment plant on the chemical properties of soil under the cultivation of three types of cover crops (Frankinia (FR), Festuca (FE), Dichondra (DI)) in a bed with sandy loam soil is investigated. This study was conducted as a factorial experiment based on a completely randomized design using mixing of water and Effluent at 4 levels with irrigation treatments of zero (control), 50, 75, and 100% compared to fresh water and 3 replications, and then the soil chemistry characteristics such as pH, EC, OC, Na, Cl, Ca, and Mg were evaluated. The results obtained from the soil chemical analysis parameters showed that the pH value decreased in all the treatments with effluent compared to the control, and this decrease was not significant in any treatment. The values of EC and Cl have increased in all plants, and these values were significant in the FR100 treatments with an increase of about 195 and 561% compared to the control, and in the FE100 treatment with an increase of about 54 and 162%, respectively, at the 5% probability level. The amount of OC in the FR100 treatment was significant with an increase of about 41% compared to the control treatment, but in other plants, this ratio was not significant in any treatment. The maximum amount of Mg in the FR50 treatment was 30.27, which has a significant effect compared to other treatments. The amount of Na and Ca in the FR100 treatment was significant with an increase of about 343% and 130%, respectively, compared to the control treatment, while in FE and DI plants, this ratio was not significant in any treatment.

Published

2024

2. تأثیر آبیاری با پساب فاضلاب تصفیه‌شده بر خواص شیمیایی خاک تحت کشت گیاهان پوششی (مطالعه موردی: شهر پرند).

Author

سید محسن کاشی, سعدالله علیزاده, and نصرت اله نجفی

Subjects

*WATER management, *SANDY loam soils, *SEWAGE disposal plants, *CLIMATE change, *WATER purification

Abstract

The reduction of water resources due to the issue of global climate change and population growth is one of the most critical issues facing the designers and planners of the development of green spaces in cities. Against these challenges, there is an urgent need to improve the efficiency of water consumption and chain use of water resources with suitable options. Due to the significant volume of urban wastewater Effluent, its reuse in green space irrigation is important from the point of view of water resource management from an ecological and economic point of view. The effect of the Parand city wastewater treatment plant on the chemical properties of soil under the cultivation of three types of cover crops (Frankinia (FR), Festuca (FE), Dichondra (DI)) in a bed with sandy loam soil is investigated. This study was conducted as a factorial experiment based on a completely randomized design using mixing of water and Effluent at 4 levels with irrigation treatments of zero (control), 50, 75, and 100% compared to fresh water and 3 replications, and then the soil chemistry characteristics such as pH, EC, OC, Na, Cl, Ca, and Mg were evaluated. The results obtained from the soil chemical analysis parameters showed that the pH value decreased in all the treatments with effluent compared to the control, and this decrease was not significant in any treatment. The values of EC and Cl have increased in all plants, and these values were significant in the FR100 treatments with an increase of about 195 and 561% compared to the control, and in the FE100 treatment with an increase of about 54 and 162%, respectively, at the 5% probability level. The amount of OC in the FR100 treatment was significant with an increase of about 41% compared to the control treatment, but in other plants, this ratio was not significant in any treatment. The maximum amount of Mg in the FR50 treatment was 30.27, which has a significant effect compared to other treatments. The amount of Na and Ca in the FR100 treatment was significant with an increase of about 343% and 130%, respectively, compared to the control treatment, while in FE and DI plants, this ratio was not significant in any treatment. [ABSTRACT FROM AUTHOR]

Published

2024

3. Phytochemical Profiles and Biological Activities of Frankenia Species: A Review.

Author

Khaled, Meyada, Ouache, Rachid, Pale, Patrick, and Harkat, Hassina

Subjects

*PHYTOCHEMICALS, *SODIC soils, *CALCAREOUS soils, *HERBAL medicine, *RESPIRATORY diseases, *SPECIES

Abstract

The relatively small Frankeniaceae family is represented by halophyte plants, growing in arid and semi-arid climates in saline, alkaline or calcareous soils. Due to their living conditions, they usually produce a large diversity of compounds, which often exhibit bioactivities. Some species of this genus have long been used as traditional herbal medicines to treat dysentery, diarrhea, gonorrhea, vaginal leucorrhea, respiratory diseases and wounds. To date, several studies on either phytochemical or pharmacological aspects, or both, have revealed that this genus is a rich source of diverse and novel bioactive chemicals, including phenolics, flavonoids, alkaloids and fatty acids. This review describes all the reported chemical profiles of Frankenia species, as well as the corresponding biological properties, when available. The aim of this review is to show the potential of these plants for various applications, especially therapeutic ones. [ABSTRACT FROM AUTHOR]

Published

2024

4. What Is Wrong with Frankenia nodiflora Lam. (Frankeniaceae)? New Insights into the South African Sea-Heaths.

Author

Crespo, Manuel B., Alonso, María Ángeles, Martínez-Azorín, Mario, Villar, José Luis, and Mucina, Ladislav

Subjects

NUCLEOTIDE sequence, DNA sequencing, ENDEMIC plants, HABITATS, PLANT morphology, SUCCULENT plants

Abstract

The taxonomic identity and phylogenetic relationships of several southern African perennial taxa related to Frankenia repens are discussed. In particular, F. nodiflora Lam., a misunderstood species described from the Cape region and synonymised to F. pulverulenta, is restored for plants endemic to salt-pans and riverbeds in the coastal lowlands across the Cape Flats (Western Cape province, South Africa). Further, a revision of morphologically close plants, usually identified as F. pulverulenta or F. repens, also occurring in similar saline ecosystems of the inland western South Africa revealed the existence of two distinct new entities not matching any described taxa of the genus. Molecular analyses of nuclear ribosomal (ITS1-5.8S-ITS2 region) DNA sequence data together with morphological divergence allow recognition of those taxa at species rank, within an independent lineage close to F. repens. In consequence, two new sea-heath species are described in the so-called "F. repens group": F. nummularia from the Nama-Karoo Biome (Western Cape and Northern Cape provinces), and F. anneliseae from the Succulent Karoo Biome (Northern Cape province). Full morphological description and type designation are reported for each accepted species as well as data on ecology, habitat, distribution, and taxonomic relationships to other close relatives are given. Further, an identification key is presented to facilitate recognition of the southern African taxa of Frankenia. [ABSTRACT FROM AUTHOR]

Published

2023

5. Phytochemical Profiles and Biological Activities of Frankenia Species: A Review

Author

Meyada Khaled, Rachid Ouache, Patrick Pale, and Hassina Harkat

Subjects

halophytes, phytochemistry, bioactivity, Frankenia, Organic chemistry, QD241-441

Abstract

The relatively small Frankeniaceae family is represented by halophyte plants, growing in arid and semi-arid climates in saline, alkaline or calcareous soils. Due to their living conditions, they usually produce a large diversity of compounds, which often exhibit bioactivities. Some species of this genus have long been used as traditional herbal medicines to treat dysentery, diarrhea, gonorrhea, vaginal leucorrhea, respiratory diseases and wounds. To date, several studies on either phytochemical or pharmacological aspects, or both, have revealed that this genus is a rich source of diverse and novel bioactive chemicals, including phenolics, flavonoids, alkaloids and fatty acids. This review describes all the reported chemical profiles of Frankenia species, as well as the corresponding biological properties, when available. The aim of this review is to show the potential of these plants for various applications, especially therapeutic ones.

Published

2024

6. What Is Wrong with Frankenia nodiflora Lam. (Frankeniaceae)? New Insights into the South African Sea-Heaths

Author

Manuel B. Crespo, María Ángeles Alonso, Mario Martínez-Azorín, José Luis Villar, and Ladislav Mucina

Subjects

Frankenia, Frankeniaceae, nomenclature, ITS phylogeny, plant endemics, plant morphology, Botany, QK1-989

Abstract

The taxonomic identity and phylogenetic relationships of several southern African perennial taxa related to Frankenia repens are discussed. In particular, F. nodiflora Lam., a misunderstood species described from the Cape region and synonymised to F. pulverulenta, is restored for plants endemic to salt-pans and riverbeds in the coastal lowlands across the Cape Flats (Western Cape province, South Africa). Further, a revision of morphologically close plants, usually identified as F. pulverulenta or F. repens, also occurring in similar saline ecosystems of the inland western South Africa revealed the existence of two distinct new entities not matching any described taxa of the genus. Molecular analyses of nuclear ribosomal (ITS1-5.8S-ITS2 region) DNA sequence data together with morphological divergence allow recognition of those taxa at species rank, within an independent lineage close to F. repens. In consequence, two new sea-heath species are described in the so-called “F. repens group”: F. nummularia from the Nama-Karoo Biome (Western Cape and Northern Cape provinces), and F. anneliseae from the Succulent Karoo Biome (Northern Cape province). Full morphological description and type designation are reported for each accepted species as well as data on ecology, habitat, distribution, and taxonomic relationships to other close relatives are given. Further, an identification key is presented to facilitate recognition of the southern African taxa of Frankenia.

Published

2023

7. FRANKENIA PULVERULENTA L. (FRANKENIACEAE) ADDITION TO PUNJAB, INDIA PLANTS CHECKLIST (SHARMA, 1990).

Author

Singh, Rai and Sharma, Varinder

Subjects

FRANKENIA, ANGIOSPERMS, PLANT species, TAXONOMY, MORPHOLOGY

Abstract

An angiosperm species (Frankenia pulverulenta L.) member of family Frankeniaceae is recorded first time from the state of Punjab, India during year 2021, 2022 and 2023. Plant species is identified on the basis of morphological characters such as stem, leaf, flower, stamens, stigma, fruit etc. This study will be useful for scientists for identification and updated information about floral diversity of the state. [ABSTRACT FROM AUTHOR]

Published

2023

8. What Is Wrong with Frankenia nodiflora Lam. (Frankeniaceae)? New Insights into the South African Sea-Heaths

Author

Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Crespo, Manuel B., Alonso-Vargas, M. Angeles, Martínez-Azorín, Mario, Villar García, José Luis, Mucina, Ladislav, Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Crespo, Manuel B., Alonso-Vargas, M. Angeles, Martínez-Azorín, Mario, Villar García, José Luis, and Mucina, Ladislav

Abstract

The taxonomic identity and phylogenetic relationships of several southern African perennial taxa related to Frankenia repens are discussed. In particular, F. nodiflora Lam., a misunderstood species described from the Cape region and synonymised to F. pulverulenta, is restored for plants endemic to salt-pans and riverbeds in the coastal lowlands across the Cape Flats (Western Cape province, South Africa). Further, a revision of morphologically close plants, usually identified as F. pulverulenta or F. repens, also occurring in similar saline ecosystems of the inland western South Africa revealed the existence of two distinct new entities not matching any described taxa of the genus. Molecular analyses of nuclear ribosomal (ITS1-5.8S-ITS2 region) DNA sequence data together with morphological divergence allow recognition of those taxa at species rank, within an independent lineage close to F. repens. In consequence, two new sea-heath species are described in the so-called “F. repens group”: F. nummularia from the Nama-Karoo Biome (Western Cape and Northern Cape provinces), and F. anneliseae from the Succulent Karoo Biome (Northern Cape province). Full morphological description and type designation are reported for each accepted species as well as data on ecology, habitat, distribution, and taxonomic relationships to other close relatives are given. Further, an identification key is presented to facilitate recognition of the southern African taxa of Frankenia.

Published

2023

9. LC-MS identification and preparative HPLC isolation of Frankenia pulverulenta phenolics with antioxidant and neuroprotective capacities in PC12 cell line.

Author

Ben Mansour, Rim, Wided, Megdiche Ksouri, Cluzet, Stéphanie, Krisa, Stéphanie, Richard, Tristan, and Ksouri, Riadh

Subjects

*FRANKENIA, *ANTIOXIDANTS, *NEUROPROTECTIVE agents, *PHENOLS, *ETHYL acetate, *CELL lines, *GALLIC acid, *QUERCETIN, *THERAPEUTICS

Abstract

Context:Frankenia pulverulentaL. (Frankeniaceae) is a medicinal species with carminative, analgesic and antiviral properties. However, phytochemical investigations, antioxidant and neuroprotective capacities of this plant remain unclear. Objective:This work assesses the phenolic composition ofF. pulverulentashoot and root and evaluates their antioxidant and neuroprotective capacities. Materials and methods:Successive fractionation ofF. pulverulentashoot and root using 6 solvents were used. Antioxidant capacity of these fractions was assessed through fourin vitrotests (DPPH, ABTS, Fe-chelating activity and ORAC). Phenolic identification, purification as well as neuroprotective activity of ethyl acetate (EtOAc) fraction and purified molecules were assessed. Results:Among the tested fractions, EtOAc shoot and root fractions possessed considerable phenolic contents (383 and 374 mg GAE/g E, respectively) because of their important ORAC (821 and 1054 mg of TE/g E), DPPH (586 and 750 mg of TE/g) and ABTS (1453 and 1319 mg of TE/g) results. Moreover, gallic acid, quercetin, quercetin galloyl glucoside, trigalloyl hexoside, procyanidin dimers and sulfated flavonoids were identified by LC-DAD-ESI-MS for the first time in this species. The relevant cytoprotective capacity (at 300 μg/mL) against β-amyloid peptide induced toxicity in PC12 cells of EtOAc fractions were corroborated with the chemical composition. In addition, purified molecules were tested for their ORAC and neuroprotective activity. Quercetin showed the best ORAC value (33.55 mmol TE/g polyphenols); nevertheless, procyanidin dimer exhibited an exceptionally efficient neuroprotective activity (100% of viability at 50 μg/mL). Discussion and conclusions:These findings suggest that this halophyte is a promising source of antioxidant and neuroprotective molecules for pharmaceutical purposes. [ABSTRACT FROM PUBLISHER]

Published

2017

10. Determination of the chemical composition and antimicrobial activity of Frankenia hirsuta.

Author

Canli, Kerem, Şimşek, Özcan, Yetgin, Ali, and Altuner, Ergin Murat

Subjects

*ANTI-infective agents, *FRANKENIA, *BIOCHEMISTRY, *ESCHERICHIA coli, *ENTEROBACTER

Abstract

Frankenia hirsuta is widely located in Turkey, but the antimicrobial potential and biochemical composition analysis of it weren't determined yet. By using the disk diffusion method, the susceptibility of 17 bacteria and 1 fungi were analyzed, which included Bacillus, Candida, Enterobacter, Enterococcus, Escherichia, Klebsiella, Listeria, Pseudomonas, Salmonella and Staphylococcus genera. 0.8, 1.5 and 3.1 mg of samples were prepared by using absolute ethanol. The bioactive composition of the plant extract was determined by gas chromatography-mass spectroscopy, and National Institute of Standards and Technology library was used for the mass spectra analysis. The results showed that F. hirsuta had antimicrobial activity against all of the studied micro-organisms except E. aerogenes and E. coli. Several active metabolites were identified, but some composition of this sample didn't match with the library. These results are the first report for the antimicrobial potential and biochemical composition of F. hirsuta. [ABSTRACT FROM AUTHOR]

Published

2017

11. The First Plant 5,6-Secosteroid from the Australian Arid Zone Species Frankenia foliosa.

Author

Tan, Yuen P., Savchenko, Andrei I., Broit, Natasa, Boyle, Glen M., Parsons, Peter G., and Williams, Craig M.

Subjects

*FRANKENIA, *CANCER treatment, *SQUAMOUS cell carcinoma, *PHYTOTHERAPY, *STEROIDS, *PHARMACEUTICAL chemistry

Abstract

The first B-ring 5,6-secosteroid isolated from plants was obtained from Frankenia foliosa, growing in Australia's arid zone. This rare secosteroid was shown to be active against all cell lines including head and neck squamous cell carcinoma (SCC) cancer cell lines that contain the Cdc25A phosphatase protein. [ABSTRACT FROM AUTHOR]

Published

2017

12. دراسة أنتشار الإصابة بطفيلي Entamoeba histolytica في منطقة الرطبة / محافظة الانبار وتأثير مستخلص نبات المليح Frankenia pulverulentaعليه

Author

سعاد شلال الفهداوي, ثائر عبد القادر صالح الالوسي, and سامي عوض محمد

Subjects

ENTAMOEBA histolytica, FRANKENIA, MEDICAL centers, PARASITIC disease treatment, SOCIAL conditions in Iraq, THERAPEUTICS

Abstract

Copyright of Iraqi Journal of Desert Studies is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

13. Plant selection for green roofs and their impact on carbon sequestration and the building carbon footprint

Author

Ursula Eicker, Saghar Karimi, and Mohammad Reza Seyedabadi

Subjects

Global and Planetary Change, Environmental Engineering, biology, Green roof, Environmental engineering, Roof vegetation, Energy consumption, Vegetation, Management, Monitoring, Policy and Law, Carbon sequestration, biology.organism_classification, Photosynthesis, Energy conservation, Pollution, CO2 absorption, Environmental sciences, Sustainable buildings, Carbon footprint, Environmental science, GE1-350, Waste Management and Disposal, Sedum acre, Frankenia

Abstract

One of the most critical determinants of a green roof's performance is the type of vegetation planted on its surface. This study examines the factors influencing the choice of plant for green roofing, such as sunlight requirements, water requirements, and cold tolerance, in order to identify the preferred green roof plants for use in cold and dry climates such as Mashhad, Iran, and to provide a roadmap to assist decision making in this regard. For this purpose, initially, fifty different plant species were evaluated from four perspectives: (i) applicability in extensive green roofs, (ii) photosynthesis rate, (iii) availability, (iv) low cost. Then, green roofs with selected vegetation were used in a field test, and the amount of carbon uptake of each of them was measured over one year. Finally, by modeling these green roofs in Design Builder software, the reduction of building energy consumption was evaluated to comprehensively investigate the overall impact of green roofing on the carbon footprint of the building. This study found that the best plants for the climate experienced in the field test are Sedum acre, Frankenia thymifolia, and Vinca major, which enjoy good tolerance and performance characteristics and offer the best energy demand and carbon emission. Green roofs with these three plants could reduce a typical building's annual energy consumption by 8.5%, 8.0%, and 7.1%, respectively. After implementing a green roof with Sedum acre, Frankenia thymifolia, and Vinca major atop a 4-story building and measuring these plants' dry weight monthly over one year, the annual CO2 absorption of these plants through photosynthesis was estimated to be 0.14, 2.07, and 0.61 kg/m2. In addition to absorbing carbon through photosynthesis, the green roofs with these plants also reduced the building's CO2 emissions by 28.16, 26.48, and 23.44 kg/m2 respectively, by reducing the energy demand.

Published

2021

14. Field Testing Diorhabda elongata (Coleoptera: Chrysomelidae) From Crete, Greece, to Assess Potential Impact on Nontarget Native California Plants in the Genus Frankenia.

Author

Herr, John C., Herrera-Reddy, Angelica M., and Carruthers, Raymond I.

Subjects

CHRYSOMELIDAE, PHYSIOLOGICAL control systems, FRANKENIA, INSECT pests, ENTOMOLOGY research

Abstract

When laboratory host specificity tests on weed biological control agents produce ambiguous results or are suspected of producing false-positive findings, field cage or open field tests can be used to help determine the true ecological host range of the agent. The leaf beetle Diorhabda elongata (Brullé) from Crete, imported to the United States for the control of saltcedar ( Tamarix spp., Tamaricaceae), showed a low but variable ovipositional response to nontarget Frankenia spp. (Frankeniaceae) in previous laboratory tests conducted in small cages, where up to 11.4% of eggs were laid on these native plants. Results from field tests presented in this article show that no eggs were laid on Frankenia palmeri S. Watson and significantly more eggs were always laid on Tamarix ramosissima Ledebour than Frankenia salina (Molina) I. M. Johnston. Furthermore, the ovipositional response to F. salina was substantially lower than that recorded in laboratory tests. The percent of eggs laid on F. salina in field tests was 3.7 in a paired choice cage test, 4.3 in a multiple choice cage test, and 2.5 in a multiple choice open field test, suggesting that the true acceptance rate of the nontarget by D. elongata in the field will be lower than laboratory tests predicted. However, some damage was caused to F. salina by adult and larval feeding in the field, although this occurred only at the very end of the open field test, when D. elongata densities were extremely high, and all of the surrounding saltcedar had been totally defoliated. Scientific representatives from various stakeholder organizations (state, county, university, and environmental groups) viewed the open field test when in progress and reviewed the final results before advising State regulatory agencies on beetle redistribution. These test results, and the open review process, led regulators to conclude that redistribution of D. elongata in California was warranted owing to its significant ability to defoliate saltcedar, and its low rate of feeding on nontarget Frankenia spp. The introduction of D. elongata provides an interesting case study for risk assessment of a potentially efficacious weed biocontrol agent that may also be capable of using nontarget native plants. [ABSTRACT FROM AUTHOR]

Published

2014

15. Frankenia fruticosa (Frankeniaceae), a new dwarf shrub from the Knersvlakte, Western Cape.

Author

Manning, J.C. and Helme, N.A.

Subjects

*FRANKENIACEAE, *DWARF shrubs, *PLANT species, *LEAF anatomy, *FRANKENIA

Abstract

Abstract: Frankenia fruticosa J.C.Manning & Helme is a new species endemic to the Knersvlakte near Lutzville in Western Cape, South Africa. It is unique among the southern African species in its gnarled, woody habit, the plants forming compact dwarf shrubs up to 35cm high, with small, sausage-shaped leaves, 1.5–2.5mm long. The calyx is densely puberulous and the narrow petals, ±8mm long, have the blade scarcely wider than the claws, with the apex of the ligule merging into the blade, and the ovary has six ovules, a pair near the base of each of three parietal placentas. We provide an updated key to the southern African species of Frankenia. [Copyright &y& Elsevier]

Published

2014

16. Relationship between vegetation assemblages and modern pollen in semiarid environments of Jujuy, northwestern Argentina

Author

Pamela Tatiana Fierro, Liliana Concepcion Lupo, Gonzalo Román Torres, and Ana Carina Sánchez

Subjects

010506 paleontology, Steppe, CENTRAL ANDES, POLLEN-VEGETATION RELATIONSHIP, 010502 geochemistry & geophysics, medicine.disease_cause, 01 natural sciences, Grassland, Shrubland, Ciencias Biológicas, Pollen, medicine, Poaceae, MODERN ANALOGUES, 0105 earth and related environmental sciences, ARGENTINA, geography, geography.geographical_feature_category, biology, Ecology, Paleontology, Vegetation, Ecología, biology.organism_classification, PROTECTED AREAS, JUJUY, ALTITUDINAL BELTS, PUNA, Nassauvia, CIENCIAS NATURALES Y EXACTAS, Frankenia

Abstract

Steppes and grasslands of semiarid environments in the Central Andes are poorly understood in fossil records due to the lack of modern pollen–vegetation studies. This paper is focused on a systematic analysis of the modern pollen–vegetation relationship in three protected areas of the Puna in Jujuy, northwestern Argentina. Vegetation assemblages were described on the basis of their floristic composition in 32 plots. Different multivariate methods, indices of association and simple linear regression models were applied in order to investigate the degree to which the different vegetation assemblages can be distinguished by their pollen spectra. Five plant assemblages were described, which were partially represented by their pollen spectra: mixed and shrubby steppes, scrubland, grassland with shrubs and high Andean grassland. The pollen spectra reflected both altitudinal variations and environmental conditions. In the Puna belt, at 3600 m, shrubs were present in great abundance and their highest pollen percentages were recorded. Both the abundance of Poaceae herbs and their pollen type increased with increasing altitude up to 4220 m, indicating the transition towards the Altoandean belt. Pollen assemblages evidenced the following environmental conditions: (1) the temperature decrease is characterized by taxa adapted to either cold air (

Published

2018

17. FRANKENIACEAE: FRANKENIA FAMILY

Author

Carrie Kiel and R. John Little

Subjects

Plant science, biology, Botany, Frankeniaceae, biology.organism_classification, Frankenia

Published

2019

18. A new genus and three new species from Central Anatolia, Turkey.

Author

VURAL, Mecit, DUMAN, Hayri, AYTAÇ, Zeki, and ADIGÜZEL, Nezaket

Subjects

*RANUNCULACEAE, *HALOPHYTES, *PLANT classification, *TAXONOMY, *SALT lakes

Abstract

A new genus (Pseudodelphinium H.Duman, Vural, Aytaç & Adıgüzel) and 3 new species (Pseudodelphinium turcicum H.Duman, Vural, Aytaç & Adıgüzel; Iberis halophila Vural & H.Duman; and Frankenia salsuginea Adıgüzel & Aytaç) from the Tuz Gölü (Salt Lake) basin (Central Anatolia) are described. Illustrations, ecological habit, and a distribution map are given. The relationships of the new genus and species are discussed in terms of related taxa. [ABSTRACT FROM AUTHOR]

Published

2012

19. Studies of the Essential Oil Composition, Antibacterial and Antifungal Activity Profiles of Frankenia laevis L. from Tunisia.

Author

Mahjoub, Mohamed A., Mighri, Zine, Jihane6Chriaa, Daami, Majda, Saïdana, Dhouha, and Helal, Ahmed N.

Subjects

*THERAPEUTIC use of essential oils, *FRANKENIA, *ANTIBACTERIAL agents, *ANTIFUNGAL agents, *DISTILLATION, *STAPHYLOCOCCUS aureus infections, *MICROCOCCUS luteus, *THERAPEUTICS

Abstract

Essential oils from the aerial parts of Frankenia laevis were obtained by steam distillation and were analyzed by GC-FID and GC/MS. Forty-four compounds were identified, representing 91.5% of the oil constituents. Hexadecanoic acid was the major compound (19.8%), followed by methyl linoleate (16%), (E, E)-farnesyl acetate (9.5%), (E)- nerolidol (8.9%) and benzyl benzoate (6.8%). Minimum inhibitory concentrations, minimum bactericidal concentrations and inhibition zone diameters against gram-positive bacteria, gram-negative bacteria and phytopathogenic fungi were determined. Essential oil was particularly effective against Staphylococcus aureus, Micrococcus luteus and Salmonella typhimurium, nevertheless no antifungal activity was detected at the tested concentrations. [ABSTRACT FROM AUTHOR]

Published

2010

20. Host preference between saltcedar (Tamarix spp.) and native non-target Frankenia spp. within the Diorhabda elongata species complex (Coleoptera: Chrysomelidae)

Author

Herr, John C., Carruthers, Raymond I., Bean, Daniel W., DeLoach, C. Jack, and Kashefi, Javid

Subjects

*SALTCEDAR, *FRANKENIA, *BEETLES, *CHRYSOMELIDAE, *BIOLOGICAL weed control, *TAMARISKS, *TAMARICACEAE, *NATIVE plants, *BACCHARIS

Abstract

Abstract: Since its release in 2001 for the biological control of saltcedar (Tamarix spp., Tamaricaceae), the leaf beetle Diorhabda elongata (Brullé) from China and Kazakhstan, has become successfully established in many locations in the western United States. However, it failed to establish in the southern and western portions of the saltcedar infestation, creating the need to test additional populations of the beetle from other areas within its region of origin. The host specificity of seven Eurasian populations of D. elongata was evaluated by testing larval development and adult ovipositional preference on a variety of non-target agricultural, ornamental and native plants, with emphasis placed on native Frankenia spp. (Frankeniaceae), which were shown to be laboratory hosts in previous tests. No larvae survived on any of the non-target test plants except for Frankenia spp., where survival to the adult stage ranged between 15% and 92%, and was often not significantly different from survival on Tamarix controls. Adult Diorhabda from Crete laid significantly more eggs on Tamarix ramosissima Ledebour than on Frankenia spp. in a multiple-choice oviposition test but showed very little discrimination between Tamarix and Frankenia species in a no-choice test. In paired-choice tests, all seven Diorhabda populations laid significantly more eggs on T. ramosissima than Frankenia salina (Molina) I.M. Johnston. However, the percentage of total eggs laid on F. salina ranged from 0.8% to 15.7%, suggesting that some utilization of this native plant might occur in the field, despite the presence of a preferred host plant. Significant differences were found between some Diorhabda populations in the percent of total eggs laid on F. salina, indicating a variable degree of risk to these non-target plants. [Copyright &y& Elsevier]

Published

2009

21. Open field host selection and behavior by tamarisk beetles (Diorhabda spp.) (Coleoptera: Chrysomelidae) in biological control of exotic saltcedars (Tamarix spp.) and risks to non-target athel (T. aphylla) and native Frankenia spp.

Author

Moran, Patrick J., DeLoach, C. Jack, Dudley, Tom L., and Sanabria, Joaquin

Subjects

*INSECT host plants, *INSECT behavior, *TAMARISKS, *BEETLES, *BIOLOGICAL weed control, *CHRYSOMELIDAE, *SALTCEDAR, *INTRODUCED plants, *INSECT reproduction, *INSECT-plant relationships

Abstract

Abstract: Biological control of invasive saltcedars (Tamarix spp.) in the western U.S. by exotic tamarisk leaf beetles, Diorhabda spp., first released in 2001 after 15years of development, has been successful. In Texas, beetles from Crete, Greece were first released in 2004 and are providing control. However, adults alight, feed and oviposit on athel (Tamarix aphylla), an evergreen tree used for shade and as a windbreak in the southwestern U.S. and México, and occasionally feed on native Frankenia spp. plants. The ability of tamarisk beetles to establish on these potential field hosts was investigated in the field. In no-choice tests in bagged branches, beetle species from Crete and Sfax, Tunisia produced 30–45% as many egg masses and 40–60% as many larvae on athel as on saltcedar. In uncaged choice tests in south Texas, adult, egg mass and larval densities were 10-fold higher on saltcedar than on adjacent athel trees after 2weeks, and damage by the beetles was 2- to 10-fold greater on saltcedar. At a site near Big Spring, in west-central Texas, adults, egg masses and 1st and 2nd instar larvae were 2- to 8-fold more abundant on saltcedar than on athel planted within a mature saltcedar stand being defoliated by Crete beetles, and beetles were 200-fold or less abundant or not found at all on Frankenia. At a site near Lovelock, Nevada, damage by beetles of a species collected from Fukang, China was 12–78% higher on saltcedar than on athel planted among mature saltcedar trees undergoing defoliation. The results demonstrate that 50–90% reduced oviposition on athel and beetle dispersal patterns within resident saltcedar limit the ability of Diorhabda spp. to establish populations and have impact on athel in the field. [Copyright &y& Elsevier]

Published

2009

22. Effects of salinity levels and seed mass on germination in Australian species of Frankenia L. (Frankeniaceae)

Author

Easton, Lyndlee C. and Kleindorfer, Sonia

Subjects

*SALINITY, *SEED physiology, *SEED research, *GERMINATION, *FRANKENIA, *PLANT species, *PLANT populations

Abstract

Halophyte species demonstrate differing levels of salt tolerance. Understanding interspecific variation to salinity levels is of value from both the scientific perspective, which includes the identification of traits associated with salinity tolerance, as well as from an applied perspective, which includes identifying plant species for specific salinity restoration and remediation projects. This paper investigates the effects of salinity on germination of 12 Australian species of the plant genus Frankenia L. (Frankeniaceae). We use saline solutions that corresponded to the average soil–water salinity concentrations in the arid zones of inland Australia. These solutions consisted of 10mM calcium chloride, 30mM magnesium sulphate, and 450mM sodium chloride. The aims of our study were: (1) to investigate the germination (germination rates, germination success) of Frankenia seeds to four salinity levels (0%, 10%, 20%, 30%), (2) to test for possible interaction effects between seed mass, germination, and salinity, and (3) to examine the effect of salinity levels on the inhibition of germination and/or seed damage. Species varied in their salt tolerance for germination rates and success. Species with larger seeds had higher germination rates and germination success for high salinity levels. Several species did not germinate well at any salinity level. Finally, no seeds were adversely affected by exposure to high salinity levels pre-germination. There is potential for including some Frankenia species in remediation and revegetation projects in areas affected by salinity, and also as garden plants in saline regions. [Copyright &y& Elsevier]

Published

2009

23. Vegetation communities on the shores of a salt lake in semi-arid Western Australia

Author

Barrett, G.

Subjects

*SALT lakes, *VEGETATIVE propagation, *ARID regions

Abstract

Abstract: The vegetation communities of the eastern and southern shores of Lake Lefroy, a large salt lake near Kambalda, Western Australia, were studied. The aim of the studies was to explore the relationship between the distribution of vegetation along salt lake shores in relation to soil conditions and the depth to ground-water. Four distinct lake shore types were investigated and two-way indicator species analysis (TWINSPAN) was used to classify the vegetation communities occurring on the lake shores. Seven vegetation communities, with a total of 50 vascular plant species, were identified. More than half of the species recorded were herbs. Those communities occurring on highly saline soils close to the shallow hypersaline ground-water-table included the halophytic genera Halosarcia and Frankenia. Communities on less saline soils and at greater elevations were more diverse. It was concluded that depth to ground-water and soil texture were likely to be key factors in determining the distribution of vegetation communities along the shores. The findings of the study have implications for the design of rehabilitation programmes for shores disturbed by mining activity. [Copyright &y& Elsevier]

Published

2006

24. Host specificity of different populations of the leaf beetle Diorhabda elongata (Coleoptera: Chrysomelidae), a biological control agent of saltcedar (Tamarix spp.)

Author

Milbrath, Lindsey R. and DeLoach, C. Jack

Subjects

*TAMARISKS, *AGRICULTURAL pests, *DEVELOPMENTAL biology, *PHYSIOLOGICAL control systems

Abstract

Abstract: The leaf beetle, Diorhabda elongata (Brullé) sensu lato, was released in 2001 for the classical biological control of exotic saltcedars, a complex of invasive Tamarix species and hybrids. It did not establish at sites south of 37°N latitude where summer daylengths are below the critical photoperiod of the northern-adapted populations of the beetle that were released. Therefore, we assessed the host specificity of four D. elongata populations collected from more southern latitudes in the Old World (Tunisia, Crete, Uzbekistan, and Turpan, China). All populations were similar to each other and the previously released populations of D. elongata in their host specificity. Larval/pupal survival for all populations was 34–100% on Tamarix test plants, 0–76% on native Frankenia plants (both in the order Tamaricales), and 0% on the remaining 28 species of plants on which all the larvae died as 1st instars. D. elongata laid high numbers of eggs on saltcedar, generally fewer eggs on athel (a moderately valued evergreen species of Tamarix) except for Uzbekistan beetles, and few to no eggs on three species of Frankenia. Few to no adults were found on Frankenia plants which also were poor maintenance hosts. The release of any of the four D. elongata populations in the southern US and northern Mexico should pose no risk to plants outside the order Tamaricales and a low risk to native, non-target Frankenia plants. Athel may be less damaged than saltcedar. [Copyright &y& Elsevier]

Published

2006

25. The First Plant 5,6-Secosteroid from the Australian Arid Zone SpeciesFrankenia foliosa

Author

Yuen P. Tan, Peter G. Parsons, Andrei I. Savchenko, Glen M. Boyle, Natasa Broit, and Craig M. Williams

Subjects

biology, 010405 organic chemistry, Chemistry, Organic Chemistry, 010402 general chemistry, medicine.disease, biology.organism_classification, 01 natural sciences, Head and neck squamous-cell carcinoma, 0104 chemical sciences, Cdc25A Phosphatase, Secosteroid, chemistry.chemical_compound, Cell culture, Botany, medicine, Physical and Theoretical Chemistry, Cancer cell lines, Arid zone, Frankenia

Abstract

The first B-ring 5,6-secosteroid isolated from plants was obtained from Frankenia foliosa, growing in Australia's arid zone. This rare secosteroid was shown to be active against all cell lines including head and neck squamous cell carcinoma (SCC) cancer cell lines that contain the Cdc25A phosphatase protein.

Published

2017

26. Field assessment of the risk posed by Diorhabda elongata, a biocontrol agent for control of saltcedar (Tamarix spp.), to a nontarget plant, Frankenia salina

Author

Dudley, Tom L. and Kazmer, David J.

Subjects

*TAMARISKS, *TAMARICACEAE, *FRANKENIA, *RESEARCH

Abstract

Abstract: The biological control program for saltcedar (Tamarix spp.) has led to open releases of a specialist beetle (Chrysomelidae: Diorhabda elongata) in several research locations, but the controversy over potential impacts to native, nontarget plants of the genus Frankenia remains unresolved. To assess the potential for nontarget impacts under field conditions, we installed cultivated Frankenia spp. (primarily two forms of Frankenia salina but also including Frankenia jamesii) at locations in Nevada and Wyoming where D. elongata densities and saltcedar defoliation were expected to be very high, so insects would be near starvation with high probability of attacking nontargets if these were suitable hosts. Subsequent insect abundance was high, and only minor impact (<4% foliar damage) was observed on both forms of F. salina under these ‘worst case’ conditions; there was no impact to F. jamesii. No oviposition nor larval development were observed on any plants, there was no dieback of damaged F. salina stems, and plants continued growing once insect populations subsided. These results under ‘natural’ field conditions contrast with caged host-range tests in which feeding, development and minor oviposition occurred on the nontarget plant. Other ecological factors, such as distance from target plants to natural Frankenia spp. populations, inhospitable conditions for agent survival in such sites, and intrinsic insect behavior that makes colonization and/or genetic adaptation highly unlikely, lead us to conclude that nontarget impacts following program implementation will be insignificant or absent. Host range testing of new agents, while necessary to ensure safety, must put greater attention on assessing the ecological context where agents will be establishing, and on balancing speculated risks against potential benefits of biological control. [Copyright &y& Elsevier]

Published

2005

27. Stem anatomy is congruent with molecular phylogenies placingHypericopsis persica in Frankenia (Frankeniaceae): comments onvasicentric tracheids.

Author

Olson, Mark E., Gaskin, John F., and Ghahremani-nejad, Farrokh

Subjects

FRANKENIA, PLANT root anatomy, BOTANY

Abstract

Evaluates the stem and root anatomy of Hypericopsis persicain light of molecular data reconstructuring within a clade of AsianFrankenia. Comparability on the anatomy of the two genera;Elongation on the length of the vasicentric tracheids beyond thelengths of the vessels elements; Distinct ontogenetic differencebetween the cell types.

Published

2003

28. Assessment of risk to native Frankenia shrubs from an Asian leaf beetle, Diorhabda elongata deserticola (Coleoptera: Chrysomelidae), introduced for biological control of saltcedars (Tamarix spp.) in the western United States

Author

Lewis, Phil A., DeLoach, C. Jack, Herr, John C., Dudley, Tom L., and Carruthers, Raymond I.

Subjects

*TAMARISKS

Abstract

Exotic saltcedars, Tamarix spp. (Tamaricaceae: Tamaricales) from Central Asia and the Mediterranean area, have invaded much of the western United States, where they degrade natural riparian areas, reduce water supplies, and interfere with agriculture and recreation. The major taxa are Tamarix ramosissima Ledeb., Tamarix chinensis Lour., and hybrids with these and Tamarix canariensis Willd. throughout much of the West, and Tamarix parviflora DC. in parts of California. The biology and host range of the leaf beetle, Diorhabda elongata Brulle´ subspecies deserticola Chen from Central Asia, indicate that it is a safe and potentially effective biological control agent. Here we report that species of the somewhat related native North American shrubs, Frankenia spp. (Frankeniaceae: Tamaricales), appear to be at little risk from the introduction of Diorhabda elongata deserticola. In laboratory, greenhouse, and outdoor cages at Temple, Texas and Albany, California, 0–27% of larvae were able to complete their development on four North American species of Frankenia compared to 53–56% on Tamarix host species, depending on the species tested and the growing conditions of the plants. However, adults were not attracted to, did not feed upon, and rarely laid eggs on Frankenia spp. Forced closer contact with Frankenia in smaller cages and even removing all Tamarix host plants did not increase adult selection of Frankenia plants nor oviposition on them. Adults from larvae reared on Frankenia did not show adaptation to nor increased utilization of the plant, compared to those reared on Tamarix. D. e. deserticola, therefore, appears sufficiently host-specific for field release in North America. [Copyright &y& Elsevier]

Published

2003

29. Chemical composition, in vitro antiparasitic, antimicrobial and antioxidant activities of Frankenia thymifolia Desf

Author

Samir Benayache, Imad Mennai, Chahrazed Esseid, Souad Ameddah, Mourad Hanfer, Ahmed Menad, and Fadila Benayache

Subjects

Ethanol, Chloroform, Antioxidant, biology, Traditional medicine, 010405 organic chemistry, Antiparasitic, medicine.drug_class, medicine.medical_treatment, Organic Chemistry, Ethyl acetate, Plant Science, Antimicrobial, biology.organism_classification, 01 natural sciences, Biochemistry, 0104 chemical sciences, Analytical Chemistry, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, chemistry, Polyphenol, parasitic diseases, medicine, Frankenia

Abstract

This study was performed on the derived fractions [chloroform (FT-C), ethyl acetate (FT-E) and n-butanol (FT-B)] of the 70% ethanol extract prepared from Frankenia thymifolia, endemic to North Africa. The fractions showed high total phenolic and flavonoid contents particularly FT-E. These results agreed with their antioxidant effects. Indeed, all the fractions were able to scavenge 1,1-diphenyl-2-picrylhydrazyl radical, with a better power of FT-E. These results were supported by the inhibition of β-carotene oxidation assay. The fractions showed moderate activity against Acanthamoeba castellanii and Leishmania amazonensis with a better activity of FT-E against A. castellanii. Moreover, FT-B exhibited an interesting antimicrobial activity against all tested bacteria. The phytochemical investigation of the most active fractions (FT-E and FT-B) led to the isolation and structural determination of six compounds. The observed biological activities may be associated with the presence of quercetin and its derivatives found in the chemical composition of these fractions.

Published

2019

30. Frankenıa salsugınea (Frankenıaceae) türünün ekolojisi ve korunması

Author

İnce, Mehmet, Karaman Erkul, Seher, and Fen Bilimler Enstitüsü

Subjects

Koruma, Seed, Ecology, Polen, Ekoloji, Pollen, Leaflet, Conservation, Tohum, Frankenia, Yaprak

Abstract

Tez çalışmasında Türkiye’ye endemik Frankenia salsuginea (Hoşpembe) türünün morfolojisi, tohum, yaprak, polen mikromorfolojisi ve yaprak anatomisi incelenerek türlerin ayrımında kullanılabilecek taksonomik farklar ortaya konulmuştur. Ayrıca toprak analizleri yapılarak yetiştiği alanın toprak özellikleri belirlenmiştir. Frankenia salsuginea türü çiçeklenme ve meyvelenme dönemlerinde Konya il sınırları içinde Ağustos 2017 - Ekim 2018 tarihleri arasında arazi çalışmaları yapılarak toplanmıştır., In this thesis, taxonomic differences of Frankenia salsuginea which is endemic to Turkey (Hoşpembe) have been demonstrated to be used for the differentiation of seed, leaves, pollen micromorphology, leaf anatomy. In addition, soil properties were determined by making soil analyzes. Frankenia salsuginea species were collected during the flowering and fruiting periods between August 2017 and October 2018 in Konya province.

Published

2019

31. Antioxidant and anti-inflammatory activities of Frankenia triandra (J. Rémy) extracts

Author

María Inés Isla, R. Torres Carro, Romina E. D'Almeida, and María Rosa Alberto

Subjects

0301 basic medicine, Antioxidant, FRANKENIACEAE, medicine.drug_class, Otras Ciencias Biológicas, medicine.medical_treatment, LIPOXYGENASE, Plant Science, Anti-inflammatory, Ciencias Biológicas, 03 medical and health sciences, Lipoxygenase, chemistry.chemical_compound, Halophyte, Botany, medicine, Maceration (wine), ARGENTINE PUNE, ABTS, biology, Traditional medicine, Chemistry, HYALURONIDASE, CLYCLOOXYGENASE, biology.organism_classification, 030104 developmental biology, Polyphenol, biology.protein, CIENCIAS NATURALES Y EXACTAS, PHYTOCHEMISTRY, Frankenia

Abstract

Frankenia triandra (Frankeniaceae) is a poorly studied halophyte subshrub species that grows on saline soils inthe Bolivian, Argentinean and Chilean Puna, and is used by Puna inhabitants as forage and antiseptic in their folk medicine. The aim of this work is to first evaluate the antioxidant and anti-inflammatory potential (inhibitory effect on pro-inflammatory enzymes) of two hydroalcoholic extracts of F. triandra obtained by maceration and soxhlet extraction. Both extracts showed similar biological activity and composition (mainly polyphenolic compounds, flavonoids and phenolic acids). They exhibited an important antioxidant activity by scavenging ABTS?+ and nitrite radicals, by inhibiting β-carotene bleaching and reducing Fe3+. Antioxidant properties are related to anti-inflammatory capacity, and both extracts showed a significant inhibition of hyaluronidase and two enzymes of arachidonic acid pathway (cyclooxygenase-2 and lipoxygenase). These preliminary studies are interesting since they might open the way for further studies which would allow the potential use of this plant in the treatment of chronic inflammatory diseases and as an antioxidant agent. Fil: Torres Carro, Romina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán. Instituto de Química del Noroeste. Universidad Nacional de Tucumán. Facultad de Bioquímica, Química y Farmacia. Instituto de Química del Noroeste; Argentina Fil: D'almeida, Romina Elisa. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán. Instituto de Química del Noroeste. Universidad Nacional de Tucumán. Facultad de Bioquímica, Química y Farmacia. Instituto de Química del Noroeste; Argentina Fil: Isla, Maria Ines. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán. Instituto de Química del Noroeste. Universidad Nacional de Tucumán. Facultad de Bioquímica, Química y Farmacia. Instituto de Química del Noroeste; Argentina Fil: Alberto, Maria Rosa. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán. Instituto de Química del Noroeste. Universidad Nacional de Tucumán. Facultad de Bioquímica, Química y Farmacia. Instituto de Química del Noroeste; Argentina

Published

2016

32. BIOLOGICAL FLORA OF THE BRITISH ISLES.

Author

Brightmore, D.

Subjects

FRANKENIA, BOTANY

Abstract

Describes Frankenia laevis L, a biological flora of the British Isles. Geographical and altitudinal distribution; Habitat; Communities; Response to biotic factors; Performance in various habitats; Morphology; Phenology; Floral biology; Animal feeders of parasites; History.

Published

1979

33. Predicting root biomass for semiarid grassland species of the southern Chihuahuan Desert

Author

Marisela Pando-Moreno, Maritza Gutiérrez Gutiérrez, Miguel Angel Hernández Gómez, Humberto González Rodríguez, Ricardo Mata González, and Julio Cesar Chacón Hernández

Subjects

Plant biomass, geography, Biomass (ecology), regression model, Atriplex, Gypsophila, geography.geographical_feature_category, Enneapogon desvauxii, biology, arid ecosystems, biology.organism_classification, Atriplex acanthocarpa, lcsh:TD1-1066, Grassland, Agronomy, allometric equations, Bouteloua gracilis, Marquardt method, lcsh:SD1-669.5, General Earth and Planetary Sciences, northeastern Mexico, lcsh:Forestry, lcsh:Environmental technology. Sanitary engineering, General Environmental Science, Frankenia

Abstract

Most of carbon in grasslands comes from underground biomass, particularly in arid grassland ecosystems. However, estimation of root biomass in these ecosystems has been poorly studied. In this study was analyzed the correlation between above ground plant variables and root biomass to develop statistical models for reliable root biomass estimations. Twenty-six plant species were collected within grazing-excluded grasslands. Linear, exponential and logarithmic regression models were performed for each species and for the whole data set to determine the variables that best predicted root biomass. Only Frankenia gypsophila and Dalea gypsophila showed root/shoot ratio (RSR) higher than one. Enneapogon desvauxii and Atriplex acantocarpha had a RSR close to one. Eight species showed statistical significance in at least one of the correlation analyses but only Tiquilia canescens, Bouteloua gracilis, Machaerantera pinnatifida, Lesquerella fendleri, and Atriplex acanthocarpa had both statistical significance and acceptable coefficient of determination (r2 ≥0.50). Using the Marquardt exponential method, 14 out of 15 studied species showed a high determination coefficient and statistical significance. This method was adequate (r2=0.853) to estimate root biomass for the whole set of plants from plant height and crown diameter.

Published

2018

34. Effect of biological soil crusts on the germination of three plant species under laboratory conditions

Author

Enrique Jurado, Joel Flores, Víctor Molina, and Marisela Pando-Moreno

Subjects

Gypsophila, biology, Germination, Botany, Placidium, Xanthoparmelia chlorochroa, Plant Science, Native plant, Lichen, biology.organism_classification, Nostoc commune, Frankenia

Abstract

Semiarid grasslands in northeastern Mexico contain many endemic plants and animals and are an important refuge for resident and migratory animals. Here, as in many other semiarid areas, biological soil crusts are a key component of the ecosystem. However, findings about their effect on the germination of vascular plants are in contrast. We asked whether germination of some native plant species would be inhibited by the presence of biological soil crusts as it has been found in other studies and evaluated the effect of seven dominant biological soil crusts: Psora cerebriforme (W.A.Weber), Psora decipiens (Hedwig) Hoffm., Placidium sp., Endocarpom pussillum (Hedwig), Xanthoparmelia chlorochroa (Tuck.) Hale, Nostoc commune (Vauch), and Oxymitra sp. from the area, on the germination percentage and germination rate of three native plant species: Frankenia gypsophila (I.M.Johnst.), Muhlenbergia arenicola (Buckl.), and Sartwellia mexicana (A.Gray). Germination tests were carried out in an environmental chamber at 26 °C and at a constant humidity of 60% with 12 hours by 12 hours light and darkness. Biological soil crusts did not affect germination percentage of the three evaluated plant species when compared to bare soil. Germination rate ranged between 3.5 and 5 days and there were no differences between substrates.

Published

2014

35. Consequences of iceplant (Carpobrotus) invasion on the vegetation and seed bank structure on a Mediterranean island: response elements for their local eradication

Author

Elise Buisson, Julie Chenot, Aurélie Passetti, and Laurence Affre

Subjects

0106 biological sciences, biology, Ecology, Biodiversity, Carpobrotus, Plant community, Introduced species, Plant Science, 15. Life on land, Native plant, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Invasive species, 14. Life underwater, Restoration ecology, 010606 plant biology & botany, Frankenia

Abstract

Biological invasions are one of the world’s leading causes of biodiversity loss. Islands are particularly good models for studying the impact of invasive species. Bagaud island (58 ha), which is part of Port-Cros National Park (southeastern France), is currently suffering an invasion of Carpobrotus. A restoration project has been established with the aim of eradicating these species to protect native ecosystems. The objective of the present study was to examine the plant composition of the local vegetation and seed bank (in litter and soil) focusing on (i) Carpobrotus patches and (ii) native plant communities, with the ultimate goal of determining whether Carpobrotus removal is followed by native plant community colonization. A further objective of this study was to help identify the most effective protocol for adequate ecological restoration. Native plant communities found around Carpobrotus patches can vary depending on whether the patch is located on the coast or inland; we can therefore expect a variety of plant communities to form following Carpobrotus removal. Even though Carpobrotus litter can frequently contain seeds of native species, such Atriplex prostrata, Frankenia sp. and Sonchus asper, it also contained many more Carpobrotus seeds (77.6%). Therefore, it is important to remove Carpobrotus litter to prevent large numbers of Carpobrotus seeds from recolonizing after eradication. We conclude that the most effective ecological restoration protocol consists of the following: (i) the removal of living Carpobrotus plants and (ii) the removal of Carpobrotus litter. This protocol can be made even more effective by following it up in the near and mid-term by periodic and thorough checks for Carpobrotus reinvasion.

Published

2014

36. Frankenia fruticosa (Frankeniaceae), a new dwarf shrub from the Knersvlakte, Western Cape

Author

John C. Manning and N.A. Helme

Subjects

biology, ved/biology, Ecology, Namaqualand, ved/biology.organism_classification_rank.species, Frankeniaceae, Plant Science, biology.organism_classification, Shrub, New species, Calyx, South Africa, Key, Ligule, Botany, Knersvlakte, Taxonomy (biology), Petal, Ovule, Taxonomy, Frankenia

Abstract

Frankenia fruticosa J.C.Manning & Helme is a new species endemic to the Knersvlakte near Lutzville in Western Cape, South Africa. It is unique among the southern African species in its gnarled, woody habit, the plants forming compact dwarf shrubs up to 35 cm high, with small, sausage-shaped leaves, 1.5–2.5 mm long. The calyx is densely puberulous and the narrow petals, ± 8 mm long, have the blade scarcely wider than the claws, with the apex of the ligule merging into the blade, and the ovary has six ovules, a pair near the base of each of three parietal placentas. We provide an updated key to the southern African species of Frankenia.

Published

2014

37. Host preference between saltcedar (Tamarix spp.) and native non-target Frankenia spp. within the Diorhabda elongata species complex (Coleoptera: Chrysomelidae)

Author

Raymond I. Carruthers, C. Jack Deloach, John C. Herr, Javid Kashefi, and Daniel W. Bean

Subjects

Frankenia salina, Diorhabda elongata, biology, Insect Science, Botany, Tamarix, Biological pest control, Frankeniaceae, Tamaricaceae, biology.organism_classification, Agronomy and Crop Science, Leaf beetle, Frankenia

Abstract

Since its release in 2001 for the biological control of saltcedar (Tamarix spp., Tamaricaceae), the leaf beetle Diorhabda elongata (Brulle) from China and Kazakhstan, has become successfully established in many locations in the western United States. However, it failed to establish in the southern and western portions of the saltcedar infestation, creating the need to test additional populations of the beetle from other areas within its region of origin. The host specificity of seven Eurasian populations of D. elongata was evaluated by testing larval development and adult ovipositional preference on a variety of non-target agricultural, ornamental and native plants, with emphasis placed on native Frankenia spp. (Frankeniaceae), which were shown to be laboratory hosts in previous tests. No larvae survived on any of the non-target test plants except for Frankenia spp., where survival to the adult stage ranged between 15% and 92%, and was often not significantly different from survival on Tamarix controls. Adult Diorhabda from Crete laid significantly more eggs on Tamarix ramosissima Ledebour than on Frankenia spp. in a multiple-choice oviposition test but showed very little discrimination between Tamarix and Frankenia species in a no-choice test. In paired-choice tests, all seven Diorhabda populations laid significantly more eggs on T. ramosissima than Frankenia salina (Molina) I.M. Johnston. However, the percentage of total eggs laid on F. salina ranged from 0.8% to 15.7%, suggesting that some utilization of this native plant might occur in the field, despite the presence of a preferred host plant. Significant differences were found between some Diorhabda populations in the percent of total eggs laid on F. salina, indicating a variable degree of risk to these non-target plants.

Published

2009

38. Untangling the Systematics of Salt Marsh Dodders: Cuscuta pacifica a New Segregate Species from Cuscuta salina (Convolvulaceae)

Author

Saša Stefanović, Michael A. R. Wright, and Mihai Costea

Subjects

Salt pan, geography, geography.geographical_feature_category, biology, Salicornia, Ecology, Jaumea carnosa, Cuscuta pacifica, Plant Science, Suaeda, Cuscuta salina, biology.organism_classification, Salt marsh, Botany, Genetics, Ecology, Evolution, Behavior and Systematics, Frankenia

Abstract

The salt marsh dodders, Cuscuta salina, have been historically delimited as a morphologically variable assemblage of inbreeding forms that parasitize hosts growing in alkaline or saline habitats from western North America. This morphological diversity has been tradi- tionally classified into three varieties: salina , major , and papillata . A morphometric analysis of floral characters and a molecular study using both plastid and nuclear DNA sequences strongly support the segregation of a new species, Cuscuta pacifica Costea and M. A. R. Wright, from C. salina . The new species corresponds to a lineage that includes varieties major and papillata , whereas C. salina is limited essentially to its type variety. Cuscuta pacifica and C. salina are sister species that have only a small area of parapatry in lower California, where they are ecologically and reproductively separated. Cuscuta salina occurs mostly in inland vernal pools and salt flats of Arizona, California, Nevada, Utah, Baja California, and Sonora, and grows primarily on Frankenia and Suaeda . Cuscuta pacifica can be found in salt marshes from the south- central Pacific coast of California north into British Columbia, parasitic especially on Salicornia and Jaumea carnosa . Cuscuta salina var. papillata (Yunck.) Costea and M. A. R. Wright, parasitic on hosts that grow in coastal interdunes, falls within the range of variation of C. pacifica , where it is transferred.

Published

2009

39. Effects of salinity levels and seed mass on germination in Australian species of Frankenia L. (Frankeniaceae)

Author

Lyndlee C. Easton and Sonia Kleindorfer

Subjects

Soil salinity, biology, Frankeniaceae, Plant Science, Interspecific competition, biology.organism_classification, Salinity, Plant ecology, Agronomy, Germination, Halophyte, Botany, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics, Frankenia

Abstract

Halophyte species demonstrate differing levels of salt tolerance. Understanding interspecific variation to salinity levels is of value from both the scientific perspective, which includes the identification of traits associated with salinity tolerance, as well as from an applied perspective, which includes identifying plant species for specific salinity restoration and remediation projects. This paper investigates the effects of salinity on germination of 12 Australian species of the plant genus Frankenia L. (Frankeniaceae). We use saline solutions that corresponded to the average soil–water salinity concentrations in the arid zones of inland Australia. These solutions consisted of 10 mM calcium chloride, 30 mM magnesium sulphate, and 450 mM sodium chloride. The aims of our study were: (1) to investigate the germination (germination rates, germination success) of Frankenia seeds to four salinity levels (0%, 10%, 20%, 30%), (2) to test for possible interaction effects between seed mass, germination, and salinity, and (3) to examine the effect of salinity levels on the inhibition of germination and/or seed damage. Species varied in their salt tolerance for germination rates and success. Species with larger seeds had higher germination rates and germination success for high salinity levels. Several species did not germinate well at any salinity level. Finally, no seeds were adversely affected by exposure to high salinity levels pre-germination. There is potential for including some Frankenia species in remediation and revegetation projects in areas affected by salinity, and also as garden plants in saline regions.

Published

2009

40. Interaction Effects of Seed Mass and Temperature on Germination in Australian Species of Frankenia (Frankeniaceae)

Author

Sonia Kleindorfer and Lyndlee C. Easton

Subjects

Abiotic component, food and beverages, Paleontology, Context (language use), Frankeniaceae, Plant Science, Biology, biology.organism_classification, Interaction, Plant ecology, Horticulture, Germination, Botánica, Botany, Frankenia

Abstract

The seed size and number theories have been proposed to explain the advantages of having many small versus a few large seeds in plants. In particular, seed germination is predicted to be shaped by temperature, and may differ for small and large seeds. In this study, we experimentally test germination at different temperatures in 12 species of arid zone plants in the genus Frankenia L. that differ in seed mass. Seed mass was categorized as “smaller-seeded species” versus “larger-seeded species” for analysis (six species per category). Many of these species co-occur geographically and hence experience similar abiotic conditions (unpredictable rainfall, extremes in temperature, poor soil conditions). The results demonstrated differences in germination as a result of the temperature*seed mass(species) interaction effect. There were significant differences in germination rates across seed mass categories during the first eight days of germination. Germination rates were higher in the larger-seeded species than the smaller-seeded species. Smaller-seeded species had lower germination success but had higher germination rates at lower temperatures, and had a more stringent temperature as a germination cue. These findings are discussed in the context of life-history strategies in arid zone plants.

Published

2008

41. Southern California Salt Marsh Dominance Relates to Plant Traits and Plasticity

Author

Joy B. Zedler and Catherine L. Bonin

Subjects

Ecology, biology, Salicornia, Jaumea carnosa, Species diversity, Aquatic Science, biology.organism_classification, Frankenia salina, Dominance (ecology), Species richness, Salicornia virginica, Ecology, Evolution, Behavior and Systematics, Frankenia

Abstract

The three most abundant tidal marsh species at Tijuana Estuary rank Salicornia virginica > Jaumea carnosa > Frankenia salina in occurrences and cover, despite being equally productive in a greenhouse study. The same abundance ranking (Sv>Jc>Fs) developed within 10 years in a restoration site that was planted with near-equal numbers per species. In this paper, we show that resistance to invasion and invasiveness also ranked Sv>Jc>Fs, helping to explain how the restored community lost diversity over time. To explain differential dominance, we assessed 20 traits (including trait ratios), expecting several traits to rank Sv>Jc>Fs, but that was not so. Nor were field abundance ranks explained by the number of superior traits, since Salicornia ranked first in only four traits; Jaumea ranked first in seven, Frankenia in three, and six traits involved ties. Instead, we found explanatory power in two traits (height and runner length) and plasticity (ability to shift trait ratios with changing conditions). We propose that Salicornia becomes dominant by growing tall (height ranked Sv>Jc = Fs) and capturing light first, and that Jaumea co-dominates by extending its runners throughout the understory. Both dominants are more plastic than the subordinate Frankenia, which allocates the greatest proportion of dry weight to roots. Our multi-trait approach explained abundance ranks where focusing on a single trait (potential productivity) could not.

Published

2008

42. An unusual lignan sulfate and aromatic compounds from Frankenia thymifolia Desf

Author

Christophe Long, Laurence Marcourt, Hamada Haba, Mohammed Benkhaled, and Hassina Harkat

Subjects

Lignan, chemistry.chemical_compound, biology, chemistry, Organic chemistry, Frankeniaceae, Sulfate, biology.organism_classification, Biochemistry, Ecology, Evolution, Behavior and Systematics, Frankenia

Published

2007

43. Host specificity of different populations of the leaf beetle Diorhabda elongata (Coleoptera: Chrysomelidae), a biological control agent of saltcedar (Tamarix spp.)

Author

Lindsey R. Milbrath and C. Jack Deloach

Subjects

Diorhabda elongata, biology, Host (biology), Insect Science, Botany, Biological pest control, Tamarix, Evergreen, biology.organism_classification, Agronomy and Crop Science, Frankenia, Hybrid, Leaf beetle

Abstract

The leaf beetle, Diorhabda elongata (Brulle) sensu lato, was released in 2001 for the classical biological control of exotic saltcedars, a complex of invasive Tamarix species and hybrids. It did not establish at sites south of 37°N latitude where summer daylengths are below the critical photoperiod of the northern-adapted populations of the beetle that were released. Therefore, we assessed the host speciWcity of four D. elongata populations collected from more southern latitudes in the Old World (Tunisia, Crete, Uzbekistan, and Turpan, China). All populations were similar to each other and the previously released populations of D. elongata in their host speciWcity. Larval/pupal survival for all populations was 34–100% on Tamarix test plants, 0–76% on native Frankenia plants (both in the order Tamaricales), and 0% on the remaining 28 species of plants on which all the larvae died as 1st instars. D. elongata laid high numbers of eggs on saltcedar, generally fewer eggs on athel (a moderately valued evergreen species of Tamarix) except for Uzbekistan beetles, and few to no eggs on three species of Frankenia. Few to no adults were found on Frankenia plants which also were poor maintenance hosts. The release of any of the four D. elongata populations in the southern US and northern Mexico should pose no risk to plants outside the order Tamaricales and a low risk to native, non-target Frankenia plants. Athel may be less damaged than saltcedar. Published by Elsevier Inc.

Published

2006

44. Field assessment of the risk posed by Diorhabda elongata, a biocontrol agent for control of saltcedar (Tamarix spp.), to a nontarget plant, Frankenia salina

Author

Tom L. Dudley and David J. Kazmer

Subjects

Diorhabda carinulata, Larva, biology, Ecology, fungi, Tamarix, Biological pest control, Context (language use), biology.organism_classification, Diorhabda elongata, Frankenia salina, Insect Science, Agronomy and Crop Science, Frankenia

Abstract

The biological control program for saltcedar (Tamarix spp.) has led to open releases of a specialist beetle (Chrysomelidae: Diorhabda elongata) in several research locations, but the controversy over potential impacts to native, nontarget plants of the genus Frankenia remains unresolved. To assess the potential for nontarget impacts under Weld conditions, we installed cultivated Frankenia spp. (primarily two forms of Frankenia salina but also including Frankenia jamesii) at locations in Nevada and Wyoming where D. elongata densities and saltcedar defoliation were expected to be very high, so insects would be near starvation with high probability of attacking nontargets if these were suitable hosts. Subsequent insect abundance was high, and only minor impact (

Published

2005

45. Host specificity of the leaf beetle, Diorhabda elongata deserticola (Coleoptera: Chrysomelidae) from Asia, a biological control agent for saltcedars (Tamarix: Tamaricaceae) in the Western United States

Author

Phil A Lewis, Raymond I. Carruthers, Joye Johnson, John C. Herr, C. Jack Deloach, and James L. Tracy

Subjects

Diorhabda carinulata, biology, Ecology, Tamarix, Introduced species, biology.organism_classification, Diorhabda elongata, Tamarix parviflora, Insect Science, Botany, Tamarix aphylla, Tamarix chinensis, Agronomy and Crop Science, Frankenia

Abstract

Four species of saltcedars, Tamarix ramosissima Ledeb., Tamarix chinensis Lour., Tamarix parviflora DC., and T. canariensis Willd. and their hybrids, are exotic, invasive small trees from Asia that cause great damage to riparian ecosystems of the western United States. They displace native plant communities, degrade wildlife habitat (including that of many endangered species), increase soil salinity and wildfires, lower water tables, reduce water available for agriculture and municipalities, and reduce recreational use of affected areas. Phytophagous insects are abundant on saltcedar in the Old World and we selected Diorhabda elongata Brulle deserticola Chen as the top candidate biological control agent because of the great damage it causes, and its high host specificity, broad geographic range, and presumed adaptability in the United States. Literature review and our overseas surveys indicated that this insect is associated only with species of Tamarix and occasionally with Myricaria but not with Reumaria or Frankenia (all Tamaricales) in the Old World. In quarantine facilities in the United States, and overseas, we tested beetles from China and Kazakhstan on six species and three hybrids (26 accessions) of Tamarix and on 58 species of other plants, in 15 tests of different types, using 1852 adults and 3547 larvae, over 10 years. Survival from larvae to adults averaged 55–67% on the Tamarix species, 12% on Myricaria sp., and only 1.6% on the three Frankenia spp. No larvae completed their development on any of the other 54 plant species tested, where most larvae died during the first instar. Adults oviposited readily on T. ramosissima accessions, less on Tamarix aphylla (L.) Karst. (athel), and only rarely on other plants. The host range of the D. e. deserticola we tested from Kazakhstan was not different from those we tested from China. Therefore, D. e. deserticola , is sufficiently host-specific and was approved for field release in North America. This is the first biological control agent introduced into the United States for control of saltcedar.

Published

2003

46. Assessment of risk to native Frankenia shrubs from an Asian leaf beetle, Diorhabda elongata deserticola (Coleoptera: Chrysomelidae), introduced for biological control of saltcedars (Tamarix spp.) in the western United States

Author

Tom L. Dudley, C. Jack Deloach, Raymond I. Carruthers, John C. Herr, and Phil A Lewis

Subjects

Ecology, Biological pest control, Tamarix, Biology, biology.organism_classification, Diorhabda elongata, Tamarix parviflora, Insect Science, Botany, Tamarix chinensis, Tamaricaceae, Agronomy and Crop Science, Frankenia, Leaf beetle

Abstract

Exotic saltcedars, Tamarix spp. (Tamaricaceae: Tamaricales) from Central Asia and the Mediterranean area, have invaded much of the western United States, where they degrade natural riparian areas, reduce water supplies, and interfere with agriculture and recreation. The major taxa are Tamarix ramosissima Ledeb., Tamarix chinensis Lour., and hybrids with these and Tamarix canariensis Willd. throughout much of the West, and Tamarix parviflora DC. in parts of California. The biology and host range of the leaf beetle, Diorhabda elongata Brulle subspecies deserticola Chen from Central Asia, indicate that it is a safe and potentially effective biological control agent. Here we report that species of the somewhat related native North American shrubs, Frankenia spp. (Frankeniaceae: Tamaricales), appear to be at little risk from the introduction of Diorhabda elongata deserticola. In laboratory, greenhouse, and outdoor cages at Temple, Texas and Albany, California, 0–27% of larvae were able to complete their development on four North American species of Frankenia compared to 53–56% on Tamarix host species, depending on the species tested and the growing conditions of the plants. However, adults were not attracted to, did not feed upon, and rarely laid eggs on Frankenia spp. Forced closer contact with Frankenia in smaller cages and even removing all Tamarix host plants did not increase adult selection of Frankenia plants nor oviposition on them. Adults from larvae reared on Frankenia did not show adaptation to nor increased utilization of the plant, compared to those reared on Tamarix. D. e. deserticola, therefore, appears sufficiently host-specific for field release in North America.

Published

2003

47. Morphoanatomical functional traits in xerophytic species of a saline environment

Author

V. Pérez Cuadra and Viviana Nora Cambi

Subjects

biology, ASTERACEAE, Physiology, Baccharis, FRANKENIACEAE, Frankeniaceae, Plant Science, Asteraceae, Vascular bundle, biology.organism_classification, Biochemistry, Trichome, ANATOMY, Ciencias Biológicas, purl.org/becyt/ford/1 [https], FUNCTIONAL TRAITS, Plant morphology, Botany, Pith, HALOPHYTIC SPECIES, purl.org/becyt/ford/1.6 [https], Ciencias de las Plantas, Botánica, CIENCIAS NATURALES Y EXACTAS, Frankenia

Abstract

La comunidad halófila del Salitral de la Vidriera (Prov. Buenos Aires, Argentina) posee especies con diferentes caracteres morfoanatómicos funcionales; el objetivo de este estudio fue comparar este tipo de caracteres en cuatro especies, dos Asteraceae (Baccharis spartioides y B. tenella) y dos Frankeniaceae (Frankenia juniperoides y F. pulverulenta). Hojas y tallos fueron tratados con técnicas tradicionales para su estudio anatómico. Las hojas de Asteraceae y F. pulverulenta fueron anfestomáticas mientras que en F. juniperoides fueron hipostomáticas. Todas las especies presentaron tricomas y sólo las Frankeniaceae, glándulas de sal. El mesofilo fue isolateral en las Asteraceae y dorsiventral en las Frankeniaceae; el número de haces vasculares foliares fue variable. Los tallos de las Asteraceae tuvieron colénquima subepidérmico o parénquima que alternó con clorénquima, esta combinación de tejidos no fue encontrada en los tallos de las Frankeniaceae. Baccharis tenella presentó fibras en la corteza mientras que B. spartioides tuvo conductos esquizógenos. Los tallos de las cuatro especies mostraron un cilindro vascular completo y una médula parenquimática. Las diferencias anatómicas entre las especies seguramente contribuyen a la perpetuación y supervivencia de las mismas en la región de estudio. Halophytic community of Salitral de la Vidriera (Buenos Aires Province, Argentina) has species with different morphoanatomical functional traits; the aim of this study is to compare these traits in four species, two Asteraceae (B. spartioides and B. tenella) and two Frankeniaceae (F. juniperoides and F. pulverulenta). Leaves and stems were treated under traditional techniques for anatomical study. Leaves of Asteraceae and F. pulverulenta are amphistomatic while in F. juniperoides are hypostomatic. All species have trichomes and only the Frankeniaceae have salt glands. The mesophyll is isolateral in Asteraceae and dorsiventral in Frankeniaceae; the number of foliar vascular bundles is variably. The stems of Asteraceae have subepidermal collenchyma or parenchyma which alternates with chlorenchyma, this tissues combination is not found in the Frankeniaceae stems. B. tenella presents fibers in the cortex while B. spartioides has schysogenous ducts. The stems of the four species showed a complete vascular cylinder and parenchymatic pith. Anatomical differences between species are related to their differential competitive ability, reflected in opposing strategies of survival and perpetuation. Fil: Pérez Cuadra, Vanesa. Consejo Nacional de Investigaciones Cientificas y Tecnicas. Centro Cientifico Tecnológico Bahia Blanca. Instituto de Ciencias Biologicas y Biomedicas del Sur; Argentina Fil: Cambi, V.. Universidad Nacional del Sur. Departamento de Biología, Bioquímica y Farmacia; Argentina

Published

2014

48. Field testing Diorhabda elongata (Coleoptera: Chrysomelidae) from Crete, Greece, to assess potential impact on nontarget native California plants in the genus Frankenia

Author

Raymond I. Carruthers, John C. Herr, and Angelica M. Herrera-Reddy

Subjects

Food Chain, Oviposition, Biological pest control, Zoology, California, Magnoliopsida, Species Specificity, Animals, Herbivory, Ecology, Evolution, Behavior and Systematics, Ecology, biology, Greece, Tamaricaceae, Tamarix, Native plant, biology.organism_classification, Coleoptera, Frankenia salina, Diorhabda elongata, Biological Control Agents, Insect Science, Larva, Weed, Frankenia, Leaf beetle

Abstract

When laboratory host specificity tests on weed biological control agents produce ambiguous results or are suspected of producing false-positive findings, field cage or open field tests can be used to help determine the true ecological host range of the agent. The leaf beetle Diorhabda elongata (Brulle) from Crete, imported to the United States for the control of saltcedar (Tamarix spp., Tamaricaceae), showed a low but variable ovipositional response to nontarget Frankenia spp. (Frankeniaceae) in previous laboratory tests conducted in small cages, where up to 11.4% of eggs were laid on these native plants. Results from field tests presented in this article show that no eggs were laid on Frankenia palmeri S. Watson and significantly more eggs were always laid on Tamarix ramosissima Ledebour than Frankenia salina (Molina) I. M. Johnston. Furthermore, the ovipositional response to F. salina was substantially lower than that recorded in laboratory tests. The percent of eggs laid on F. salina in field tests was 3.7 in a paired choice cage test, 4.3 in a multiple choice cage test, and 2.5 in a multiple choice open field test, suggesting that the true acceptance rate of the nontarget by D. elongata in the field will be lower than laboratory tests predicted. However, some damage was caused to F. salina by adult and larval feeding in the field, although this occurred only at the very end of the open field test, when D. elongata densities were extremely high, and all of the surrounding saltcedar had been totally defoliated. Scientific representatives from various stakeholder organizations (state, county, university, and environmental groups) viewed the open field test when in progress and reviewed the final results before advising State regulatory agencies on beetle redistribution. These test results, and the open review process, led regulators to conclude that redistribution of D. elongata in California was warranted owing to its significant ability to defoliate saltcedar, and its low rate of feeding on nontarget Frankenia spp. The introduction of D. elongata provides an interesting case study for risk assessment of a potentially efficacious weed biocontrol agent that may also be capable of using nontarget native plants.

Published

2014

49. Impact of a Parasitic Plant on the Structure and Dynamics of Salt Marsh Vegetation

Author

Steven C. Pennings and Ragan M. Callaway

Subjects

Frankenia salina, Arthrocnemum subterminale, biology, Limonium, Ecology, Botany, Cuscuta salina, Cuscuta, biology.organism_classification, Limonium californicum, Salicornia virginica, Ecology, Evolution, Behavior and Systematics, Frankenia

Abstract

We investigated the effect of a native parasitic plant, Cuscuta salina, on the structure and dynamics of the plant community in a California salt marsh. Cuscuta was common in the middle marsh zones. The abundance of Cuscuta was positively correlated with the abundance of Limonium californicum at two sampling scales (0.25- and -40-m2 quadrats). Sampling at the scale of individual plants indicated that the dominant plant in the marsh, Salicornia virginica, was preferred by Cuscuta as a host over Arthrocnemum subterminale, Limonium californicum, and Frankenia salina. This result was confirmed with host-choice experiments in the field. Based on spatial correlations and host-choice experiments, we hypothesized that Cuscuta indirectly facilitated Limonium and Frankenia, increasing plant diversity and initiating vegetation cycles. This hypothesis was supported by sampling patches with different his- tories of Cuscuta infection. Patches with recent heavy Cuscuta infection had reduced Sal- icornia biomass and increased Limonium and Frankenia biomass relative to controls. This effect was most pronounced at higher elevations and in larger, older patches. The hypothesis was also supported by sampling permanent quadrats repeatedly over time. The probability that Cuscuta would invade a quadrat increased with increasing cover of Salicornia. Quadrats containing Cuscuta increased in Limonium and Frankenia cover between censuses relative to quadrats lacking Cuscuta. Our results indicate that parasitic plants can have strong effects on the structure and dynamics of natural vegetation assemblages. However, these effects are mediated by phys- ical and biological gradients across the landscape.

Published

1996

50. Experimental study of pollination by ants in Mediterranean high mountain and arid habitats

Author

Daniel García, José A. Hódar, José M. Gómez, and Regino Zamora

Subjects

Mutualism (biology), biology, Habitat, Pollination, Ecology, Pollinator, Sedum anglicum, Botany, Alyssum, biology.organism_classification, Relative species abundance, Ecology, Evolution, Behavior and Systematics, Frankenia

Abstract

In this paper, we report the results of an experimental study on ant pollination of three plant species inhabiting the Mediterranean high mountains (Alyssum purpureum, Arenaria tetraquetra and Sedum anglicum) and four species inhabiting the aridlands (Lepidium subulatum, Gypsophyla struthium, Frankenia thymifolia and Retama sphaerocarpa) of South-eastern Spain. We determined several plant and ant traits, as well as the composition and abundance of the pollinator assemblage. Insects belonging to 29 families and five orders visited the flowers of the plant species studied. In all but two, L. subulatum and G. struthium, the ants comprised 70-100% of the flower visitors. The results clearly show that five out of seven of these plant species were pollinated by ants. The role of the ants as pollinators seems to depend heavily on the relative abundance of the ants with respect to the other species of the pollinator assemblage, ant pollination becoming evident when ants outnumber other floral visitors. The ant-pollination systems analysed in this study may be the result of prevailing ecological conditions more than an evolutionary result of a specialized interaction.

Published

1996