AI Article Synopsis
- Evidence suggests that members of the Hygrophoraceae family, known as waxcaps, have a unique biotrophic lifestyle with unusual nitrogen nutrition.
- Field experiments showed that adding nitrogen, lime, or pesticides suppressed waxcap fruiting, indicating a complex relationship with nutrient availability.
- Isotope analysis revealed that waxcap fungi may not behave like typical saprotrophs, but instead function as biotrophic endophytes or mycorrhizal partners, with their nitrogen acquisition potentially linked to higher-level soil fauna.
Article Abstract
Several lines of evidence suggest that the agaricoid, non-ectomycorrhizal members of the family Hygrophoraceae (waxcaps) are biotrophic with unusual nitrogen nutrition. However, methods for the axenic culture and lab-based study of these organisms remain to be developed, so our current knowledge is limited to field-based investigations. Addition of nitrogen, lime or organophosphate pesticide at an experimental field site (Sourhope) suppressed fruiting of waxcap basidiocarps. Furthermore, stable isotope natural abundance in basidiocarps were unusually high in N and low in C, the latter consistent with mycorrhizal nutritional status. Similar patterns were found in waxcap basidiocarps from diverse habitats across four continents. Additional data from C analysis of basidiocarps and C pulse label experiments suggest that these fungi are not saprotrophs but rather biotrophic endophytes and possibly mycorrhizal. The consistently high but variable δ N values (10-20‰) of basidiocarps further indicate that N acquisition or processing differ from other fungi; we suggest that N may be derived from acquisition of N via soil fauna high in the food chain.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6849620 | PMC |
| http://dx.doi.org/10.1111/1462-2920.14327 | DOI Listing |
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