Physical and chemical characteristics of soils in Ephedra gerardiana and E. pachyclada habitats of Kali Gandaki Valley in Central Nepal.

In the Kali Gandaki Valley in Central Nepal, Ephedra gerardiana and E. pachyclada show species specificity for physical and chemical characteristics of soils. Here, the relationship between soil characteristics and ephedrine and pseudoephedrine contents was examined. E. gerardiana grew in moist alpine scrub and upper alpine meadow from 3735 to 4156 m a.s.l., while E. pachyclada grew in the lower Caragana steppe and dry alpine scrub from 2629 to 3671 m a.s.l. The soil texture of E. gerardiana and E. pachyclada collection sites were classified as loam or sandy loam mainly composed of sand and silt. Loss on ignition (%) of soil in E. gerardiana habitats (28.4-35.0%) was markedly higher than for that in E. pachyclada habitats (14.2-17.2%). E. pachyclada soil (pH 8.4-9.2) was more alkaline than that for E. gerardiana (pH 8.5). The five ions (Cl-, SO42-, Ca2+, Mg2+, and Na+) in soil of E. pachyclada (Cl-, 0.01-18.97 mmol/100 g dry soil weight; SO42-, 1.95-83.33; Ca2+, 3.79-77.91; Mg2+, 1.28-27.9; Na+, 0.94-34.49) were markedly higher than those of E. gerardiana (Cl-, 0.18-0.29; SO42-, 0.07-0.08; Ca2+, 4.19-4.59; Mg2+, 0.22-0.58; Na+, 0.93-1.40). The main factor contributing to strongly alkali soils for each species was different between E. gerardiana and E. pachyclada: CaCO3 for E. gerardiana and CaSO4, MgSO4, NaCl, or a combination of these for E. pachyclada. The total ephedrine and pseudoephedrine content in E. gerardiana and E. pachyclada ranged from 1.67-1.88%DW and 1.95-4.80%DW, respectively. Both E. gerardiana and E. pachyclada were amenable for use a raw material source for extraction of ephedrine and pseudoephedrine, and the ephedrine content of both species showed a statistically significantly positive correlation with Mg2+ and Na+ contents of the soil.

Ecological, phylogenetical, and pharmacognostical characteristics of Aconitum kiyomiense endemic to Hida highlands, Takayama city, Gifu Prefecture, Japan.

Aconitum kiyomiense Kadota (Ranunculaceae) is endemic to Takayama city, Gifu Prefecture, central Japan. We collected specimens from marshes and flood plains at altitudes ranging from 852 to 1085 m and from a new habitat consisting of a mesic meadow in the subalpine belt (1681 m). Glabrous pedicels and flowering sequence of inflorescence were used for identification, but intra-species variations in the pilus of pedicels (glabrous, pilose, and chimeric types) were observed. Although the flowering sequence has been reported as both indeterminate and determinate, all specimens in the present study were determinate. No intra-species variation was detected via partial nuclear internal transcribed space, and sequences did not match another 17 East Eurasian continent subgenus Aconitum species. The chloroplast trnL-trnF intergenic spacer region (trnL-trnF) showed three different haplotypes. The trnL-trnF dominant haplotype sequence was identical to that of A. kusnezoffii growing on the Eurasian continent, suggesting that A. kiyomiense is more primitive than other Japanese aconitum and a relic species of the Eurasian continent. We report the first detection of aconitine alkaloids in the tuberous roots, which exhibited aconitine alkaloid contents varying from 0.32 to 4.05 mg/g dry weight (mg/g) for aconitine, 0.02 to 4.12 mg/g for hypaconitine, undetectable to 0.05 mg/g for jesaconitine, and 0.42 to 3.76 mg/g for mesaconitine. The variation of aconitine alkaloid components and contents appeared to be random and did not vary with inflorescence phenotype, trnL-trnF haplotype, environmental habitat conditions, or the geographic region of the collection sites. Since most populations showed no genetic intra-variation, it will be necessary to maintain the continuity of habitats and designate areas for conservation of genetic diversity at the population level.

Evaluation of raw nepodin extraction from Rumex japonicus and R. obtusifolius and their DNA polymorphisms.

Nepodin, found in the roots of Rumex japonicus Houtt. (Polygonaceae), inhibits osteoclast differentiation and has an antidiabetic effect. We propose nepodin as an ingredient of new functional foods or as a drug candidate for reducing the risk of reduced locomotion resulting from diseases such as osteoporosis. Although there are no previous reports of R. obtusifolius L., which is found throughout Japan, having roots containing nepodin, we found nepodin in the roots of this species. Therefore, R. obtusifolius as well as R. japonicus was considered a candidate raw material for nepodin extraction. We also discuss the suitability of R. japonicus and R. obtusifolius as sources of raw nepodin for cultivation on the Ryukyu Islands. In this study, all specimens on the Ryukyu Islands were identified as R. japonicus. Conversely, all specimens on mainland Japan were R. obtusifolius. The DNA sequence of the chloroplast trnL-trnF intergenic spacer region and partial nuclear internal transcribed spacer was consistent with the identification of R. japonicus and R. obtusifolius by morphological characteristics of the perianth segments. Therefore, to avoid erroneous identification and misuse of the plant species used for extraction of raw materials, it is preferable to develop DNA markers for these two regions. The content of nepodin varied from undetectable to 0.34% of the fresh weight (%FW) in R. japonicus and from undetectable to 0.21%FW in R. obtusifolius. From a pharmacological perspective, as plants that might be suitable as raw materials for nepodin extraction, it became clear that both R. japonicus and R. obtusifolius can be used with the same expected extraction efficiency. Based on our findings, R. obtusifolius could not be confirmed as inhabiting the Ryukyu Islands. For this reason, to conserve the endemic genetic characteristics of the Ryukyu Islands and to prevent genetic pollution by R. obtusifolius, only R. japonicus should be cultivated on the Ryukyu Islands.