Experimental Treatment with a Hypomethylating Agent Alters Life History Traits and Fitness in Brassica rapa

Epigenetic modifications to DNA can be inherited and may play a key role in evolution, with epigenetic influences on life history traits such as the timing of germination and flowering thought to be particularly important in plants. However, few studies have examined the effects of epigenetic modifications through experimental alteration of the methylome under differential growth conditions. In this study, we chemically induced global DNA hypomethylation using 5-azacytidine in three Brassica rapa plant populations differing in life history characteristics and under differing photoperiod treatments. We found that our 5-azacytidine treatment affected the timing of germination and that this effect differed across populations, with the treatment delaying germination in B. rapa Fast Plants, which have been artificially selected for rapid cycling, but accelerating germination in biennials. Rapid cycling B. rapa plants also were smaller and had lower reproductive fitness under the experimental demethylation treatment. There was no main effect of demethylation or photoperiod on flowering time, but the interaction was marginally significant, indicating that demethylation effects on flowering time depend on photoperiod. These results demonstrate that epigenetic modifications can influence phenotypic traits in ways that are dependent on genetic identity, life history, and light availability.

Amomum bungoensis: A New Species of Amomum (Zingiberaceae) from Sarawak, Malaysia

A new species of Amomum Roxb. from Sarawak is described. Amomum bungoensis S. Aimi Syazana & Meekiong, sp. nov., shows similarity with A. durum S. Sakai and Nagamasu by having similar fruit characteristics but differs in labellum and anther crest of the flowers. Detailed description and photographs are provided.

Biochemical and Histological Evaluation of Three Selected Medicinal Plant Extracts of Sri Lankan Origin on Dyslipidemia and Oxidative Stress in Alloxan Induced Diabetic Rats

The objective of the present study was to investigate the effect of refluxed aqueous extracts of Gmelina arborea, Spondias pinnata, and Coccinia grandis on atherogenicity and oxidative stress in rats with chemically induced type 1 diabetes mellitus. Alloxan monohydrate (150 mg/kg, intraperitoneal) was used to induce diabetes to Wistar rats. Thereafter, diabetic rats (n=6 per group) were treated with the three selected plant extracts at their optimum effective therapeutic doses and glibenclamide (0.50 mg/kg, positive control) for 30 days. Administration of the three extracts in diabetic rats exhibited antihyperglycemic, antiatherogenic, and antioxidant effects in diabetic rats on the 30th day of the study. The atherogenic and coronary risk indices were also reduced in support of the antiatherogenic effects. The results of the study revealed that the bark extracts of G. arborea, S. pinnata, and leaf extract of C. grandis exerted beneficial effects against dyslipidemia, atherogenicity, and oxidative stress in alloxan induced diabetic rats. The selected plant extracts would be beneficial for the development of food supplements targeting main complications associated with diabetes.

Influence of Multiwalled Carbon Nanotubes and Biostimulators on Growth and Content of Bioactive Constituents of Karkade (Hibiscus sabdariffa L.)

This work was carried out to evaluate the effect of different concentrations of multiwalled carbon nanotubes (MWCNT), 0, 500, and 1000 mg/L, and biostimulators (Delfan plus), 0 and 10 ml/L, and their interactions (sprayed on the plant shoot and soil until the complete wetness) on growth and production of bioactive constituents of karkade (Hibiscus sabdariffa L.) planted in plastic pots. After finishing experiment, growth parameters (length of shoot and root, number of leaves, branches, and fruits, chlorophyll content, and dry weight of calyces yield) were measured and also the active compounds of aqueous extracts calyces were measured by Gas Chromatography-Mass Spectrometry (GC-MS). The obtained results explained that the experimental treatment caused a significant increase in all measured parameters. GC-MS analysis shows quantitative and qualitative alterations of bioactive constituents of water extract from calyxes of karkade, where plant production of 60 active compounds at the combination of 1000 mg/L of MWCNT and 10 ml/L of Delfan plus was compared to untreated plants which produced 4 only.

Phylogeny of Ten Kenyan Plectranthus Species in the Coleus Clade Inferred from Leaf Micromorphology, Rbcl and MatK Genes

Plectranthus species are difficult to taxonomically delimit due to lack of clear-cut morphological synapomorphies. This study is aimed at bringing insights into classification of ten Plectranthus species in the Coleus clade by using leaf micromorphology and molecular data. Stomatal counts and observation of microtome leaf sections generated leaf micromorphology data, while molecular data was obtained from sequencing MatK and Rbcl genes from each species. Phylogeny based on the MatK and Rbcl gene sequences clustered four species P. caninus, P. otostegioides, P. barbatus, and P. lanuginosus together (Clusters A and D, respectively), while P. pseudomarrubioides, P. ornatus, and P. aegyptiacus were grouped together into Clusters B and E, respectively, and P. montanus and P. amboinicus were grouped together (Cluster C). A dendrogram was generated through a cluster analysis of the leaf micromorphological characters grouped together, P. caninus, P. ornatus, P. otostegioides, P. montanus, and P. pseudomarrubioides (Cluster F). The dendrogram also grouped together P. aegyptiacus, P. amboinicus, P. edulis, P. barbatus, and P. lanuginosus (Cluster G). The present study has grouped the ten studied Plectranthus species using molecular and leaf micromorphology characters into phylogenies, which are supported by previous studies, and proved that these characters can aid in plant identification and phylogenetic studies.

Phenotypic Variation Profile of Marsilea crenata Presl. Cultivated in Water and in the Soil

The aim of this research was to investigate possible phenotypic variation profile of Marsilea crenata Presl. cultivated in water and in the soil, to find alternative cultivation techniques to fulfill the increasing demand for pollutant-free plants. Phenotypic profile was investigated through macroscopic and microscopic examinations of all plant parts, and phytochemical screening on the ethanol extract of the leaves using thin layer chromatography technique was conducted to detect the terpenoid constituents. Results showed a variation of phenotypic profiles in the macroscopic examination caused by different cultivation methods. Phytochemical screening showed spots of terpenoid compounds with different color intensity. No differences were found in the microscopic examination of the leaves, petioles, and stems. Since major profile changes did not occur, M. crenata is recommended to be cultivated in water as its original habitat by providing a better caring and quality of water. Due to its phytoremediation property, it is necessary to grow M. crenata in pollutant-free water.

Micromorphological Characterization of the Leaf and Rhizome of Agapanthus praecox subsp. praecox Willd. (Amaryllidaceae)

Agapanthus praecox subsp. praecox Willd. is a highly valued medicinal plant of family Amaryllidaceae. The genus Agapanthus has been difficult to classify into distinct species due to broad similar morphology of its members. Present taxonomic confusion in this genus and numerous medicinal uses of A. praecox necessitate its proper identification. The leaf and rhizome microcharacters were studied using scanning electron, light microscopy, and energy dispersive X-ray spectroscopy. Epidermal cells are polygonal having wavy anticlinal walls with mean adaxial length of 80.04±0.5 μm and mean abaxial length of 85.33±0.6 μm. The leaf is amphistomatic with anomocytic stomata with mean pore length of 22.14±0.2 μm on the adaxial and 15.02±0.3 μm on the abaxial surface. The mean stomata densities on the adaxial and abaxial surfaces were 280.5±0.5 mm2 and 350.6±0.6 mm2. Trichomes and secretory ducts are absent on both surfaces. EDX spectroscopy showed that beryllium, carbon, oxygen, sodium, and silicon were present on both epidermal surfaces and rhizome while nitrogen, aluminum, and chlorine were detected only on the adaxial surface and sulphur was detected only in the rhizome.

Study on the Diversity and Use of Wild Edible Plants in Bullen District Northwest Ethiopia

This study was designed to document the use and conservation of wild edible plants in Bullen district, northwestern Ethiopia. Data was collected through semistructured interview and focus group discussions. The collected data was analyzed through direct matrix ranking, pairwise ranking, and priority ranking methods. In this study, a total of 77 wild edible plant species were identified. Of these plants, trees account for 35.5% followed by shrubs (31.1%). Fruits were the most harvested parts (59.7%) followed by leaves (12.9%), roots and tubers (3.8%), and rhizomes (2.5%). These plants are consumed either raw (57.1%) and/or cooked (17%); most are collected by women (62.5%) and children (20.8%), but the participation of men is stumpy (4.2%). According to pairwise ranking analysis, fruits of Vitex doniana and the leaves of Portulaca quadrifida are the most preferred plant species because of their sweet taste. However, some of the plants have side effects causing abdominal pain, diarrhea, and constipation. Although religion and cultural norms and values play an important role in the conservation of wild edible plants, population pressure and its associated impacts contributed much to the disappearance of these plants. Thus, community participation is the suggested solution for the conservation and sustainable use of the wild edible plants in the study area.

Relationship between Flower Opening in Six Cotton Cultivars and Their Progeny to Pollen Dehydration Tolerance

Cotton (Gossypium hirsutum L.) production in arid and semiarid environments routinely experiences elevated temperature and low humidity challenges that ultimately determine yield and producer profitability. The present study investigated the diversity of flower petal opening to determine if traditional genetics and breeding approaches could develop a more cupped or closed flower, thereby providing a more humid microenvironment around the dehisced pollen. Six cultivars with reported differences in pollen humidity sensitivity were used to evaluate the genetics of petal opening. Crosses between open flower cultivars generally resulted in F1 offspring with open flowers. Crosses between closed flower cultivars generally resulted in F1 offspring with closed flowers. Crosses between open and closed flower cultivars provided unique phenotypes depending on the cultivars used. The results from the F1 offspring suggested that the male parent influenced the flower shape of the offspring. In addition, analysis of F2 offspring from the bidirectional crosses suggests that a single dominant gene from the male parent ultimately influences flower petal openness. Using traditional breeding techniques, it may be possible to develop cultivars with either open or closed flower phenotypes, linking pollen development stability and mature pollen viability across a range of environments to stabilize and enhance crop yield.