# Altitude modulates growth and bioactive compounds in two Gastrodia elata forms through the microenvironment and soil microbes

**Authors:** Haixin Diao, Daichuan Pan, Junfei Wang, Shunxing Guo

PMC · DOI: 10.3389/fpls.2026.1734174 · 2026-03-05

## TL;DR

This study shows how altitude affects the growth and quality of two Gastrodia elata forms by changing soil microbes and environmental conditions.

## Contribution

The study reveals form-specific mechanisms linking altitude, soil microbes, and plant performance in Gastrodia elata.

## Key findings

- High altitude maximized yield, while middle altitude enriched bioactive compounds in Gastrodia elata forms.
- Soil pH strongly influenced quality in f. glauca, while enzyme activity was key for f. elata.
- Tuber-associated bacteria correlated differently with yield and quality across Gastrodia elata forms.

## Abstract

Gastrodia elata Bl. is a medicinal-edible heterotrophic orchid with distinct vertical distribution, but unstable yield and inconsistent quality in cultivation limit its industrial development. The mechanisms by which altitude modulates growth and bioactive compound accumulation in different G. elata forms remain unclear.

We conducted a two-factor field experiment (two forms: G. elata f. glauca, G. elata f. elata; three altitudes: 650, 1653, 1953 m) in the Qinba Mountains, using a consistent commercial Armillaria sp. strain to isolate bacterial effects. We analyzed microclimate, soil properties, soil enzyme activities, culturable bacterial communities, and tuber bioactive compounds (gastrodin, parishins) across developmental stages.

Form-specific altitudinal responses were observed: total yield peaked at high altitude (1953 m; 2668.11 ± 317.10 g), while bioactive compounds were enriched at middle altitude (1653 m)—with optimal accumulation at the Large Baima stage (f. glauca) and Mima stage (f. elata). Soil pH was the primary correlative factor for f. glauca quality (explaining 52%–70.5% of variation in RDAs), whereas integrated carbon-acquiring enzyme activity (16.6%) was key for f. elata—consistent with PLS-SEM evidence of an indirect “soil properties→enzyme activities” pathway for f. elata quality. Culturable tuber-associated bacteria (dominated by Pseudomonadota, least diverse at middle altitude) correlated divergently with yield and quality: positively with yield but negatively with quality in f. glauca; weakly positive with yield and strongly (non-significantly) positive with quality in f. elata (p < 0.05).

Our findings clarify form-specific correlative networks linking altitude, microenvironment, soil microbes, and plant performance, providing targeted guidance for ecological cultivation to balance high yield and quality in G. elata.

## Linked entities

- **Chemicals:** gastrodin (PubChem CID 115067), parishins (PubChem CID 177826556)
- **Species:** Gastrodia elata (taxon 91201), Armillaria sp. (taxon 1906949), Pseudomonadota (taxon 1224)

## Full-text entities

- **Chemicals:** gastrodin (MESH:C045345), carbon (MESH:D002244), parishins (-)
- **Species:** Gastrodia elata (species) [taxon 91201], Bacteria Latreille et al. 1825 (Bacteria stick insect, genus) [taxon 629395], Armillaria sp. (species) [taxon 1906949]

## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12999896/full.md

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Source: https://tomesphere.com/paper/PMC12999896