Medicago Polymorpha Research Articles

Botanical origins of honeys from pollen analysis during the main honey flow across agro-ecologies in kelala district, South Wollo, Ethiopia

This study aimed to identify the botanical origins of honey through pollen analysis across agro-ecologies of Kelala district, South Wollo, Ethiopia. Fifteen honey samples were collected from traditional beehives, with 5 samples from each of the highland, midland, and lowland agro-ecologies. Qualitative and quantitative pollen analyses revealed that 22 honeybee plants belonging to 8 families, with no families of poisonous origin, and 3 growth forms were identified. Among these plant species, 18 were found in the midland and 13 were recorded in each of the highland and lowland agro-ecologies. The family Fabaceae, with 7 (31.81 %) of the identified honeybee plants, was highly dominant (p < 0.03) compared to the other families. Herbs, with 18 plant species, were highly dominant (p < 0.001) compared to shrubs and trees. In terms of plant species diversity, 10 plant species (Bidens pachyloma, Guizotia scabra, Becium grandiflorum, Eleusine floccifolia, Lens culinaris, Lippia adoensis, Medicago polymorpha, Ocimum basilicum, Trifolium steudneri, and Zea mays) were found in more than 50 % of the honey samples, with the first 2 in all the samples studied. Analysis of each honey sample showed that 8 (53.33 %) of the samples were monofloral, 3 (20 %) were bifloral, and the rest were multifloral. However, all the honeys produced due to agro-ecology (geographical origin) were monofloral. Guizotia scabra in the highland and Bidens pachyloma in the midland and lowland agro-ecologies were the predominant pollen producing species and contributors of monofloral honey. In conclusion, the safe and healthy monofloral honey produced across agro-ecologies suggests the suitability of the honey for human consumption and can potentially attract investors.

Cover cropping attenuates population growth of Macrophomina phaseolina by limiting weed biomass, despite asymptomatic colonization of cover crops.

Macrophomina phaseolina is a fungus that causes charcoal rot in strawberry and a wide variety of crop species. Little is known about its potential to asymptomatically colonize crop plants or grow saprophytically on their tissues, both of which would create a potential for alternate, asymptomatic hosts to lead to increases in inoculum. To test the impact of cover cropping on M. phaseolina abundance, we conducted randomized-block field experiments in soils infested by M. phaseolina. None of the fifteen cover crop varieties showed symptoms of charcoal rot. All Fabaceae and Brassicaceae varieties were asymptomatically colonized at varying rates, but among Poaceae, M. phaseolina was recovered from only one individual oat plant. Soil samples collected at the time of planting, tillage, and 8 weeks post-tillage showed that cover cropping attenuated the growth of M. phaseolina relative to fallow plots harboring the weedy legume Medicago polymorpha. This weed species was abundantly colonized by this pathogen in both living root samples and plant residue collected 8 weeks after tillage. Cover cropping also influenced the diversity and composition of bulk soil bacterial and fungal communities, but these effects were not associated with M. phaseolina population density. Although M. phaseolina was not detected in living wheat tissues, it was recovered from wheat residue, suggesting that it may be facultatively saprophytic. These results suggest that cover cropping does not pose a risk for increasing disease caused by M. phaseolina and could be beneficial as conducive weed species, such as M. polymorpha, are suppressed.

Combined effects of salinity and soil drying on growth, water, status, and photosynthesis in Medicago ciliaris and Medicago polymorpha

Combined effects of salinity and soil drying on growth, water, status, and photosynthesis in Medicago ciliaris and Medicago polymorpha

Some More Plants from Khedbrahma Region, North Gujarat

In this paper 49 angiospermous species - 32 dicotyledons and 17 monocotyledons are listed. Polypogon monspeliensis Desf. and Medicago polymorpha L. are recorded for the first time from Gujarat.

Adoption of Cereal–Legume Double Cropping toward More Sustainable Organic Systems in the Mediterranean Area

Environmental benefits can be achieved by organic farming systems; however, weed pressure and timely crop nutrition remain important drawbacks for many field crops. Agroecological practices, such as double cropping (e.g., intercropping and relay cropping), using forage legume species can provide nitrogen (N) to the companion crop through biological N fixation and tackle weed issues by competing for light, water and land. The present study investigated the effect of intercropping (IC) and relay-cropping (RC) systems of durum wheat (Triticum turgidum subsp. durum (Desf.) Husn) and forage legumes (Trifolium subterraneum L., Medicago polymorpha L., and Lotus corniculatus L.) by varying organic N fertilization with the aim to reduce N-requirement and weed pressure and increase wheat grain yield and grain protein content in Mediterranean organic farming systems. N fertilizer significantly improved wheat grain yield and grain protein, while a null effect on legume and weed biomass yields was found. Double cropping (T. durum-M. polymorpha, and T. durum-L. corniculatus) enhanced wheat grain yield as compared to the control and the T. durum-T. subterraneum. IC significantly improved legume yield, grain protein and the land equivalent ratio (LER) and reduced weed dry biomass as compared with the RC and the control. Among legume species, T. subterraneum outperformed the others and was less affected by the wheat’s competitive performance. Nonetheless, M. polymorpha was as effective as T. subterraneum in controlling weeds. Weed dry biomass was linearly reduced by increasing legume yield; the relationship improved by cumulating wheat grain yield to legume yield. Overall, this study indicated that double cropping, especially IC, can be a suitable agroecological practice to tackle weed issues and reduce N-requirement in Mediterranean organic cereal-based systems.

Variations of Carotenoids, Total Bioactive Contents, and Antioxidant Activity in Leaves of Medicago polymorpha

Medicago polymorpha L. (MP) is a herbaceous plant commonly known as “bur clover.” It is aboriginal to Central and Western Asia and extensively distributed around the world. This study determines the changes in carotenoids and antioxidant potential of different MP of different origins. The sample leaves were analyzed for identification and quantification of carotenoids using a reversed-phase HPLC system. The result showed nine carotenoids and pigments in each sample. The major carotenoid compounds were phytoene, phytofluene, neoxanthin and its isomer (9-Z-neoxanthin), violaxanthin, lutein along with their isomers (9-Z-lutein, 9′-Z-lutein), and all-E-β-carotene. The major pigments were 15-hydroxy-lactone chlorophyll a, pheophytin a, pheophytin a′, pyropheophytin a, divinyl chlorophyll a, chlorophyll b′, chlorophyll b, 13′-hydroxy-lactone chlorophyll b, and hydroxy pheophytin a′. The carotenoids were detected in considerable amounts in the samples from Lower Dir (213 μg/g), Swat (171 μg/g), and Buner (157 μg/g). Chlorophylls were higher in Lower Dir (203.4 μg/g), Swat (184.0 μg/g), and Buner (152.2 μg/g) and significantly lower amounts in Malakand samples (141.7 μg/g). The total carotenoids in Lower Dir (51.2%) were higher than in Swat (48.2%), Buner (50.8%), and Malakand samples (44.6%). The amounts of violaxanthin and lutein were significantly higher in Lower Dir (73.6%) samples, followed by Malakand (51.7%), whereas Buner and Swat samples showed the lowest levels. In conclusion, MP leaves are a good source of important carotenoids having potential antioxidant properties, which are highly correlated to the violaxanthin and lutein contents.

Mixtures of Forage Species as Pasture for Dairy Ewes in a Mediterranean Environment

In Sicilian forage systems, the introduction of native self-seeding annual legumes can be beneficial in low-input farming. Intercropping would be a valuable strategy for implementing pasture resources in Sicilian forage systems during late spring. The aim of this study was to evaluate the effects on ewes’ milk production of continuous grazing with two different mixtures (i) sulla (Sulla coronarium L.), burr medic (Medicago polymorpha L.), and chicory (Cichorium intybus L.) (SuBuCh); and (ii) barrel medic (Medicago truncatula Gaertn.), snail medic (Medicago scutellata L.), and burr medic (BuSnBa). Twenty lactating ewes were homogeneously divided into four groups of five ewes. Each group was assigned to one of four 1500 m2 grazing sectors consisting of two replicates of SuBuCh and BuSnBa. Ewes fed with the SuBuCh mixture showed higher milk yield, higher protein (5.17 vs. 4.85%, p &lt; 0.001) and casein content (4.02 vs. 3.73%, p &lt; 0.001), lower urea content (37.70 vs. 45.38 mg dL−1, p &lt; 0.001), and better clotting parameters compared to ewes grazing on the BuSnBa mixture. Finally, ewes in the SuBuCh group showed a smaller decrease in live weight at the end of the grazing period compared to BuSnBa ewes (−2.05 vs. −3.55 kg, respectively), although the difference did not reach a significant level. These preliminary one-year results seem to highlight the promising role of SuBuCh intercrop leading to a potential quantitative/qualitative improvement in grazing resources and the productive performance of grazing ewes in a semi-arid Mediterranean environment. However, it is of note that these outcomes might undergo variations when subjected to a prolonged trial extending beyond three years.

Screening suitable legumes for living mulches to support nitrogen dynamics and weed control in a durum wheat-forage sorghum crop sequence

Relay intercropping of service legumes (living mulch) is a valuable agroecological practice to support nutrient availability, yield and non-chemical weed control in a crops sequence, if suitable legumes are chosen. This study tested the suitability of eight legume living mulches for relay intercropping in durum wheat (Triticum durum Desf.) evaluating their effects on the subsequent forage sorghum (Sorghum bicolor L. Moench) in a Mediterranean low-input cereal-based cropping system. Legumes include perennial (Medicago sativa, Medicago lupulina, Trifolium repens, Hedysarum coronarium), annual (Trifolium incarnatum, Trifolium resupinatum) and annual self-seeding (Trifolium subterraneum, Medicago polymorpha) species. A plot experiment repeating two times a wheat-sorghum crop sequence, was carried out in Central Italy to assess the effects of relay intercropping of legumes on agronomical and economic performance of the associated wheat and subsequent sorghum. The legumes were undersown in the already developed durum wheat in late winter. They were maintained after wheat harvest and used as green manure by biomass chopping and plowing in the following spring at sorghum sowing time. None of the intercropped legumes affected N uptake or grain protein content of the companion wheat with respect to the control (wheat sole crop). In the spring before sorghum sowing, N input from legume biomass residues was assessed and it sensibly changed according to legume species, ranging from 1.2 (T. incarnatum) to 182 kg ha−1 (H. coronarium). The legume treatments significantly affected the N uptake in the subsequent sorghum and it ranged from 20.2 to 172.6 kg ha−1. Without the use of additional external nitrogen input, average sorghum dry biomass production preceded by H. coronarium (13.3 t ha−1), T. repens (11.8 t ha−1), T. subterraneum (11.0 t ha−1) and M. sativa (9.3 t ha−1) was in line with the productive level under conventional conditions. Biomass residues of M. sativa significantly reduced the total weed biomass in sorghum by 65% compared with the control. In sorghum, preceding legumes such as T. resupinatum and T. incarnatum promoted dicotyledonous weed growth. Hedysarum coronarium and T. repens were the best legumes for relay intercropping in the low-input wheat-sorghum crop sequence under Mediterranean conditions of this study according to agronomic and economic evaluation. These legumes were able to increase soil nitrogen content allowing to significantly reduce external nitrogen fertilization while optimizing sorghum production. When gross income is calculated at cropping system level, most legumes provide a positive economic balance.

Assessment of phytoremediation potential of native plant species naturally growing in a heavy metal-polluted industrial soils.

The present study was carried out in Hayat Abad Industrial Estate located in Peshawar to assess the levels of cadmium (Cd) that were present in the soil as well as the plant parts (Roots and shoots). To evaluate the phytoremediation potential of the plants different factors i.e. Bioconcentration Factor (BCF), Translocation Factor (TF), and Bioaccumulation Coefficient were determined. These plants were grown in their native habitats (BAC). We have analysed, cadmium concentration from soil which are collected from 50 different locations ranged from 11.54 mg/Kg (the lowest) to 89.80 mg/Kg (highest). The maximum concentration (89.80 mg/Kg) of cadmium was found in HIE-ST-16L Marble City and HIE-ST-7 Bryon Pharma (88.51 mg/Kg) while its minimum concentration (12.47 mg/Kg) were detected in the soil of Site (HIE-ST-14L Royal PVC Pipe) and (11.54 mg/Kg) at the site (HIE-ST-11 Aries Pharma). Most plant species showed huge potential for plant based approaches like phyto-extraction and phytoremediation. They also showed the potential for phyto-stabilization as well. Based on the concentration of cadmium the most efficient plants for phytoextraction were Cnicus benedictus, Parthenium hysterophorus, Verbesina encelioides, Conyza canadensis, Xanthium strumarium, Chenopodium album, Amaranthus viridis, Chenopodiastrum murale, Prosopis juliflora, Convolvulus arvensis, Stellaria media, Arenaria serpyllifolia, Cerastium dichotomum, Chrozophora tinctoria, Mirabilis jalapa, Medicago polymorpha, Lathyrus aphaca, Dalbergia sissoo, Melilotus indicus and Anagallis arvensis. The cadmium heavy metals in the examined soil were effectively removed by these plant species. Cerastium dichotomum, and Chenopodium murale were reported to be effective in phyto-stabilizing Cd based on concentrations of selected metals in roots and BCFs, TFs, and BACs values.

Exploring dynamics of floristic composition in Mediterranean grasslands: a case study from Sardinia, Italy

Mediterranean grasslands stand out as biodiversity hotspots due to their inclusion of diverse habitats that foster a remarkable range of biological diversity, characterized by inter-annual variability of floristic composition. This study aims to assess the inter-annual dynamics of the floristic composition in a grassland within a typical silvopastoral system in the Mediterranean basin, within the framework of rainfall variability. The study was performed on a farm representative of Mediterranean silvopastoral systems in Central-Western Sardinia (Italy). Vegetation surveys started in the spring of 2018 and concluded in the spring of 2022. They were conducted annually in the spring (S) and winter (W) seasons, using the point quadrat method along eight permanent transects. The dynamics of floristic composition were compared within and between years in terms of variability of specific percentage contribution (CSP) of each plant species. The results highlighted substantial differences in the composition of plant assemblages between the two seasons (W vs S) and between surveys within each season for all a posteriori comparisons. Anthemis arvensis, Lolium rigidum, Festuca ligustica and Medicago polymorpha were the main discriminating plant species between seasons. Considering the discriminant species between the four winter surveys, we found a positive effect of August rain on Cynodon dactylonCSP and a negative one on Trifolium subterraneumCSP. Considering the spring surveys, we found a positive effect of January rain on L. rigidum and a negative effect on Plantago lanceolata. The rain affected the inter-annual dynamics of floristic composition in the Mediterranean grasslands. Other factors, such as temperature, remain to be investigated. Moreover, a more extended data series may allow us to strengthen our results.

Soil legacy and organic amendment role in promoting the resistance of contaminated soils to drought

The application of organic amendments is a common practice in the restoration of contaminated and degraded soils. We designed an experiment in pot mesocosms to study the effect of organic amendment (comparing a short-term addition of biosolid compost with soils amended 17 years ago) and soil legacy (comparing soils exposed or not to extensive grazing over a remediation process) on the resistance of a degraded Mediterranean soil against a simulated drought event. Pots were sown with a forage mixture (Lolium rigidum and Medicago polymorpha), and soil resistance was evaluated by measuring soil chemical properties, biological activity (soil enzyme activities and respiration rate), soil microbial community composition and plant production. Our results showed a positive effect of the organic amendment and the exposure to extensive grazing on soil properties, increasing soil water retention and the stability of plant production under drought conditions. The long-term amendment addition avoided the negative consequences of drought on L. rigidum production (the species with the lowest tolerance to water stress), while M. polymorpha biomass in soils exposed to grazing was 12 times the biomass in the non-amended and non-exposed soil. However, soil biological activity (enzyme activities and respiration rate) as well as microbial diversity were not limited by the simulated drought conditions under any type of soil management legacy, demonstrating the great adaptation of the microbial communities to water stress conditions in semiarid Mediterranean soils. Soils exposed to organic matter inputs in the long-term, through amendment addition or exposure to grazing, showed high similarities in terms of bacterial and fungal composition.

Ethnobotanical study of wild edible plants and implications for food security

Even though our world is home to a wide variety of plant species, only a small portion have been used by humans as food. This shows that many plant species in our world have not been successfully domesticated and explored. Wild edible plants are among these underutilized plant resources. Wild edible plants are often consumed, particularly during times of food scarcity, poverty, extreme weather, or political unrest. However, due to various environmental factors, wild edible plants and the related indigenous knowledge are currently in decline. Therefore, documenting such potentially valuable underutilized resources must be an urgent issue in order to implement conservation actions. This study aimed to determine the diversity of wild edible plants, the parts of the plants that are used, the methods of preparation, and the time of harvesting and consumption in Ensaro District, North Shewa Zone, and Amhara Regional State, Ethiopia. Semi-structured interviews were conducted to gather data on the diversity of wild edible plant species, their growth habits, the parts of the plants that are used, preparation methods, habitats, and factors that pose a threat to them. The socioeconomic characteristics of the informants were also documented. SigmaPlot software version 15 was used for statistical analysis. Analysis of Variance (P < 0.05) was used to examine the correlation between sociodemographic and socioeconomic characteristics and the indigenous knowledge of informants regarding wild edible plants. Forty-three species of wild edible plants were documented in the study area. Moraceae, Fabaceae, and Tiliaceae were the most popular families of wild edible plants. The most prevalent plant growth habits were shrubs, and the most commonly utilized plant parts were fruits. Indigenous knowledge was positively correlated with the socio-demographic characteristics of informants, with the exception of household income. A higher number of species, genera, and families of wild edible plants were recorded at mid-altitudes (1500-2000 meters above sea level). The use of wild edible plants is still common in the study area. Some wild edible plants are utilized during normal times when staple food is available, while others such as Snowdenia polystachya, Eleusine coracana, Urtica simensis, and Medicago polymorpha are consumed during times of famine. If wild edible plants are managed properly, they can be used for food security. Therefore, local communities must collaborate with natural resource administrators to effectively manage wild edible plant resources before they become critically endangered.

Soil nutrition management may preserve non-detrimental weed communities in rainfed winter wheat (T. aestivum)

Overuse of fertilizers has been associated with the selection of competitive and dominant weed communities and biodiversity loss. Considering that crop nutrient management is going through a continuous revisitation process to improve nutrient use efficiency and energy savings, we addressed the consequences of different nutritional levels (low, optimal, and surplus) on weed community composition and wheat growth, yield, and kernel quality. Weed density and biomass were evaluated on sampling areas at the heading stage, and the data obtained were subjected to a cluster analysis for the identification of different weed communities throughout the experimental plots. At harvest, plant growth, yield and quality traits of wheat and wheat kernels were evaluated and correlated with the presence of different weed communities. Out of the four weed communities identified under optimal and low nutrition, two communities did not significantly reduce wheat yield. Under surplus nutrition only one weed community was identified, which resulted to be detrimental for wheat production in terms of yield quantity and quality. The non-detrimental communities were characterized by a high presence of corn chamomile (Anthemis arvensis L.), birdeye speedwell (Veronica persica Poir.), and common chickweed (Stellaria media (L.) Vill). On the contrary, the detrimental communities, were characterized by a high density and aboveground biomass of burr medic (Medicago polymorpha L.). Finally, under surplus nutrition, species richness declined, and the density and aboveground biomass of annual ryegrass (Lolium rigidum Gaud.) increased compared to optimal and low nutrition. Our results showed that soil fertilization plays a crucial role in differentiating detrimental vs. non-detrimental weed communities, with excess fertilization reducing species richness and selecting for competitive and specialized weed species. Overall, an efficient management of soil nutrients may promote non-detrimental weed communities while reducing weed management intensity and thereby improving biodiversity and sustainability. Assessing the efficiency of soil fertilization management and understanding how different fertilization rates and forms may affect weed communities is crucial to advancing sustainable weed management.

Genome-Wide Identification and Expression Analysis of the SWEET Gene Family in Annual Alfalfa (Medicago polymorpha).

SWEET (Sugars will eventually be exported transporter) proteins are a group of sugar transporters that are involved in sugar efflux, phloem loading, reproductive development, plant senescence, and stress responses. In this study, 23 SWEET transporter members were identified in the Medicago polymorpha genome, heterogeneously distributed on seven chromosomes. These MpSWEET genes were divided into four subfamilies, which showed similar gene structure and motif composition within the same subfamily. Seventeen MpSWEET genes encode seven transmembrane helices (TMHs), and all MpSWEET proteins possess conserved membrane domains and putative serine phosphorylation sites. Four and three pairs of MpSWEET genes were predicted to be segmentally and tandemly duplicated, respectively, which may have contributed to their evolution of M. polymorpha. The results of microarray and RNA-Seq data showed that some MpSWEET genes were specifically expressed in disparate developmental stages (including seedling stage, early flowering stage, and late flowering stage) or tissues such as flower and large pod. Based on protein network interaction and expression patterns of MpSWEET genes, six MpSWEET genes were selected for further quantitative real-time PCR validation in different stress treatments. qRT-PCR results showed that MpSWEET05, MpSWEET07, MpSWEET12, MpSWEET15, and MpSWEET21 were significantly upregulated for at least two of the three abiotic stress treatments. These findings provide new insights into the complex transcriptional regulation of MpSWEET genes, which facilitates future research to elucidate the function of MpSWEET genes in M. polymorpha and other legume crops.

Genome-Wide Identification and Expression Analysis of the Dof Transcription Factor in Annual Alfalfa Medicago polymorpha.

The Dof transcription factor is a plant-specific transcription gene family that plays various biological functions in plant development and stress response. However, no relevant research has been conducted on Medicago polymorpha. Here, 36 MpDof genes were identified in the M. polymorpha genome and further divided into 10 groups based on the comparative phylogenetic analysis. The essential information of MpDof genes, such as chromosomal localization, gene structure, conserved motifs, and selective pressures were systematically analyzed. All 36 MpDof genes were predicted to contain more cis-acting elements related to hormone response. MpDof24 and MpDof25 were predicted to interact with MpDof11 and MpDof26 to involve in the photoperiod blooms process. The MpDof genes showed a diverse expression pattern in different tissues. Notably, MpDof29 and MpDof31 were specifically expressed in the large pod and root, respectively, suggesting their crucial role in the pod and root development. qRT-PCR analysis indicated that the expression levels of MpDof10, MpDof25, MpDof26, and MpDof29 were obviously up-regulated under drought, salt, and cold stress. Collectively, genome-wide identification, evolutionary, and expression analysis of the Dof transcription gene family in M. polymorpha will provide new information to further understand and utilize the function of these Dof genes in Medicago plants.

Physiological and Biochemical Changes in the Seeds of Naturally Aged Wenling Medic (Medicago polymorpha) with Its Recovery of Viability

Wenling Medic (Medicago polymorpha) is common in southern China and has long been utilized as a vegetable in eastern China, as well as a significant raw ingredient for livestock and pickled meals. As a legume, there is still a research vacuum, and the first problem Wenling Medic faces in production is the problem of seed germination. The germination percentage of Wenling Medic was low, according to production practice and laboratory tests performed in this work. Furthermore, after more than two years of storage, the germination percentage of Wenling Medic dropped sharply, and it lacked a long enough seed life. An attempt was made to restore the viability of the seeds using the polyethylene glycol (PEG) osmoregulation-mediated priming method, after the physiological and biochemical characteristics of the seeds were assessed using the anthrone method, Bradford assay, 3,5-dinitrosalicylic acid (DNS) method, and thiobarbituric acid (TBA) method. The findings showed that it has a relatively short storage age and, with a useable life of only two years under normal aging circumstances, is not deactivated soon after harvesting. In addition, whereas protein content and α-amylase concentration did not significantly correlate (p &gt; 0.05) with storage life, the conductivity of exudate, malondialdehyde content, and carbohydrate content did (p &lt; 0.05). The seed viability was not considerably increased by the saturation initiation mediated by osmoregulation, utilizing PEG. In conclusion, the decrease in Wenling Medic seeds’ germination ability was substantially connected with higher levels of lipid peroxidation and decreased carbohydrate levels, but not with protein concentrations or α-amylase activity. The timing of dehydration may need to be carefully controlled when using PEG osmoregulation to prime Wenling Medic seeds.

Phenotypic diversity of Medicago crop wild relatives growing in Lebanon

Medicago L. (Fabaceae; Papillionoidae) has high nutritive value, palatability, and ability to improve the soil fertility which puts it as one of the world’s most important forages. Medicago genetic resources are suffering from anthropogenic destructions, overgrazing, climate change and drought. Using the results of a previous gap analysis, which prioritized the species and sites for in situ and ex situ conservation, this study aims to undertake ex situ conservation activities for high priority annual Lebanese species. Accessions of the target species were collected, multiplied, characterized and conserved at Genebank of The International Center for Agricultural Research in the Dry Areas (ICARDA). Based on characterization data, morphological diversity assessment is carried out to analyse the phenotypic variability pattern in relation with the environmental conditions of the collection sites. The analysis of 26 characters applied on 19 collected species has shown a significant variability for 13 characters. The species Medicago polymorpha L. from Chwaifat, M. polymorpha from Shebenieh, M. truncatula Gaertn and M. orbicularis (L.) Bartal from Jeita, and M. constricta Durieu from Bwerij had characters that could be related to drought tolerance as they have displayed a high early vigour and an early flowering. In depth analysis of the characters early vigour, days to flowering and days to pod formation within the species in relation to drought tolerance further informed our proposed management plan. On this basis, the accessions showing a high adaptability to harsh conditions will be subject to in situ conservation.

Hederagenin improves Alzheimer's disease through PPARα/TFEB-mediated autophagy

BackgroundAutophagic flux is coordinated by a network of master regulatory genes, which centered on transcription factor EB (TFEB). The disorders of autophagic flux are closely associated with Alzheimer's disease (AD), and thus restoring autophagic flux to degrade pathogenic proteins has become a hot therapeutic strategy. Hederagenin (HD), a triterpene compound, isolated from a variety food such as Matoa (Pometia pinnata) Fruit, Medicago sativa, Medicago polymorpha L. Previous studies have shown that HD has the neuroprotective effect. However, the effect of HD on AD and underlying mechanisms are unclear. PurposeTo determine the effect of HD on AD and whether it promotes autophagy to reduce AD symptoms. Study DesignBV2 cells, C. elegans and APP/PS1 transgenic mice were used to explore the alleviative effect of HD on AD and the molecular mechanism in vivo and in vitro. MethodsThe APP/PS1 transgenic mice at 10 months were randomized into 5 groups (n = 10 in each group) and orally administrated with either vehicle (0.5% CMCNa), WY14643 (10 mg/kg/d), low-dose of HD (25 mg/kg/d), high-dose of HD (50 mg/kg/d) or MK-886 (10 mg/kg/d) + HD (50 mg/kg/d) for consecutive 2 months. The behavioral experiments including morris water maze test, object recognition test and Y maze test were performed. The effects of HD on Aβ deposition and alleviates Aβ pathology in transgenic C. elegans were operated using paralysis assay and fluorescence staining assay. The roles of HD in promoting PPARα/TFEB-dependent autophagy were investigated using the BV2 cells via western blot analysis, real-time quantitative PCR (RT-qPCR), molecular docking, molecular dynamic (MD) simulation, electron microscope assay and immunofluorescence. ResultsIn this study, we found that HD upregulated mRNA and protein level of TFEB and increased the distribution of TFEB in the nucleus, and the expressions of its target genes. HD also promoted the expressions of LC3BII/LC3BI, LAMP2, etc., and promoted autophagy and the degradation of Aβ. HD reduced Aβ deposition in the head area of C. elegans and Aβ-induced paralysis. HD improved cognitive impairment and pathological changes in APP/PS1 mice by promoting autophagy and activating TFEB. And our results also showed that HD could strongly target PPARα. More importantly, these effects were reversed by treatment of MK-886, a selective PPARα antagonist. ConclusionOur present findings demonstrated that HD attenuated the pathology of AD through inducing autophagy and the underlying mechanism associated with PPARα/TFEB pathway.

Diet composition of omnivorous Mesopotamian spiny-tailed lizards (Saara loricata) in arid human-altered landscapes of Southwest Iran.

The Mesopotamian spiny-tailed lizard, Saara loricata, is one of the largest lizard species in the Middle East. Here, we report on the diet of the lizard and their potential role in seed dispersal in Southwestern Iran. We analyzed lizard fecal pellet groups (n= 124) for their food item composition and seed content. We calculated the relative frequency of occurrence (FO%), relative volume (V%), and importance value (IV%) for each food item. Moreover, the number of seeds of each plant food item was counted. Our findings reveal the first solid evidence of omnivorous behavior in the lizard. In total, 16 plant food items and 14 animal food items were identified. Herbaceous plants (IV=110.2%) and invertebrates (4.8%) were the most important food groups. The plant food items with the highest FO% were Poaceae (56.4%), Centaurea sp. (43.5%), and Medicago polymorpha (27.4%); and the V% for these items were 53.6%, 30.9%, and 13.1%, respectively. Most of the seeds that were consumed by lizards were from Poaceae (547 seeds; 47.81%) and Fabaceae (285 seeds; 24.91%). We also found that each individual lizard could play an equal role in the seed dispersal of all plant families identified. Previous studies show that plant species density and richness are important features for the burrow site selection of Mesopotamian spiny-tailed lizard. This study highlights the potential role of lizards in influencing the vegetation communities around their burrows through seed dispersal.

Molecular marker development and genetic diversity exploration in Medicago polymorpha.

Medicago polymorpha L. (bur clover), an invasive plant species of the genus Medicago, has been traditionally used in China as an edible vegetable crop because of its high nutritive value. However, few molecular markers for M. polymorpha have been identified. Using the recently published high-quality reference genome of M. polymorpha, we performed a specific-locus amplified fragment sequencing (SLAF-seq) analysis of 10 M. polymorpha accessions to identify molecular markers and explore genetic diversity. A total of 52,237 high-quality single nucleotide polymorphisms (SNPs) were developed. These SNPs were mostly distributed on pseudochromosome 3, least distributed on pseudochromosome 7, and relatively evenly distributed on five other pseudochromosomes of M. polymorpha. Phenotypic analysis showed that there was a great difference in phenotypic traits among different M. polymorpha accessions. Moreover, clustering all M. polymorpha accessions based on their phenotypic traits revealed three groups. Both phylogenetic analysis and principal component analysis (PCA) of all M. polymorpha accessions based on SNP markers consistently indicated that all M. polymorpha accessions could be divided into three distinct groups (I, II, and III). Subsequent genetic diversity analysis for the 10 M. polymorpha accessions validated the effectiveness of the M. polymorpha germplasm molecular markers in China. Additionally, SSR mining analysis was also performed to identify polymorphic SSR motifs, which could provide valuable candidate markers for the further breeding of M. polymorpha. Since M. polymorpha genetics have not been actively studied, the molecular markers generated from our research will be useful for further research on M. polymorpha resource utilization and marker-assisted breeding.