Brantlee Spakes Richter scite author profile

Species of Ganoderma, commonly called reishi (in Japan) or lingzhi (in China), have been used in traditional medicine for thousands of years, and their use has gained interest from pharmaceutical industries in recent years. Globally, the taxonomy of Ganoderma species is chaotic, and the taxon name Ganoderma lucidum has been used for most laccate (shiny) Ganoderma species. However, it is now known that G. lucidum sensu stricto has a limited native distribution in Europe and some parts of China. It is likely that differences in the quality and quantity of medicinally relevant chemicals occur among Ganoderma species. To determine what species are being sold in commercially available products, twenty manufactured products (e.g., pills, tablets, teas, etc.) and seventeen grow your own (GYO) kits labeled as containing G. lucidum were analyzed. DNA was extracted, and the internal transcribed spacer (ITS) region and translation elongation factor 1-alpha (tef1α) were sequenced with specific fungal primers. The majority (93%) of the manufactured reishi products and almost half of the GYO kits were identified as Ganoderma lingzhi. G. lingzhi is native to Asia and is the most widely cultivated and studied taxon for medicinal use. Illumina MiSeq sequencing of the ITS1 region was performed to determine if multiple Ganoderma species were present. None of the manufactured products tested contained G. lucidum sensu stricto, and it was detected in only one GYO kit. G. lingzhi was detected in most products, but other Ganoderma species were also present, including G. applanatum, G. australe, G. gibbosum, G. sessile, and G. sinense. Our results indicate that the content of these products vary and that better labeling is needed to inform consumers before these products are ingested or marketed as medicine. Of the 17 GYO kits tested, 11 kits contained Ganoderma taxa that are not native to the United States. If fruiting bodies of exotic Ganoderma taxa are cultivated, these GYO kits will likely end up in the environment. The effects of these exotic species to natural ecosystems needs investigation.

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Mycorrhizal Inoculation of Big Sacaton: Implications for Grassland Restoration of Abandoned Agricultural Fields

Richter

Stutz

2002

Restoration Ecology

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Grasslands dominated by Sporobolus wrightii (big sacaton) once covered riparian floodplains in southwestern United States and northern Sonora, Mexico but now occupy less than 5% of their historic range, mostly due to clearing for agriculture. Many agricultural fields have been abandoned because of changing land uses, and efforts are under way to restore native grassland habitat. Arbuscular mycorrhizal (AM) fungi are known to form associations with S. wrightii and can be a potential factor in grassland restoration efforts. The goal of this study was to determine the effects of mycorrhizal inoculation on S. wrightii during transplant production and in a restoration trial. Sporobolus wrightii was grown with and without AM fungi in 2.8‐L tall pots and 150‐mL nursery containers under greenhouse conditions for 8 weeks and then transplanted into an abandoned agricultural field. Plants were monitored for growth, survival, and mycorrhizal infection. Seedling emergence in the greenhouse was higher in pots with mycorrhizal inoculation, but inoculation had little effect on growth except more tillers were produced by pre‐inoculated plants grown in the smaller containers. In the abandoned field, pre‐inoculated plants had greater survival, basal diameter, and tiller and panicle production through the first two growing seasons. Plants started in smaller containers also had greater survival, height, basal diameter, and tiller production than those started in tall pots. Root colonization was detected in all plants by 2 months after transplanting but was not consistent throughout the experiment except for pre‐inoculated plants started in the smaller containers. These results indicate that mycorrhizal inoculation can benefit restoration efforts in abandoned agriculture fields in semiarid regions.

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Cellulase Activity as a Mechanism for Suppression of Phytophthora Root Rot in Mulches

Richter¹,

Ivors²,

Shi³

et al. 2011

Phytopathology®

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Wood-based mulches are used in avocado production and are being tested on Fraser fir for reduction of Phytophthora root rot, caused by Phytophthora cinnamomi. Research with avocado has suggested a role of microbial cellulase enzymes in pathogen suppression through effects on the cellulosic cell walls of Phytophthora. This work was conducted to determine whether cellulase activity could account for disease suppression in mulch systems. A standard curve was developed to correlate cellulase activity in mulches with concentrations of a cellulase product. Based on this curve, cellulase activity in mulch samples was equivalent to a cellulase enzyme concentration of 25 U ml(-1) or greater of product. Sustained exposure of P. cinnamomi to cellulase at 10 to 50 U ml(-1) significantly reduced sporangia production, but biomass was only reduced with concentrations over 100 U ml(-1). In a lupine bioassay, cellulase was applied to infested soil at 100 or 1,000 U ml(-1) with three timings. Cellulase activity diminished by 47% between 1 and 15 days after application. Cellulase applied at 100 U ml(-1) 2 weeks before planting yielded activity of 20.08 μmol glucose equivalents per gram of soil water (GE g(-1) aq) at planting, a level equivalent to mulch samples. Cellulase activity at planting ranged from 3.35 to 48.67 μmol GE g(-1) aq, but no treatment significantly affected disease progress. Based on in vitro assays, cellulase activity in mulch was sufficient to impair sporangia production of P. cinnamomi, but not always sufficient to impact vegetative biomass.

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Assessment of arbuscular mycorrhizal fungal propagules and colonization from abandoned agricultural fields and semi-arid grasslands in riparian floodplains

Richter

Tiller

Stutz

2002

Applied Soil Ecology

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Use of straight vegetable oil mixtures of rape and camelina as on farm fuels in agriculture

Paulsen

Wichmann²,

Schuemann³

et al. 2011

Biomass and Bioenergy

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