Sex-Related Ecophysiological Responses of Hippophae rhamnoide Saplings to Simulate Sand Burial Treatment in Desertification Areas

(1) Background: In recent years, Hippophae rhamnoides has been used extensively to prevent desertification in China due to its nitrogen (N) fixation and sand stabilization abilities. However, as a dioecious species, few studies have focused on the sexual dimorphism of H. rhamnoides in response to sa...

Full description

Saved in:
Bibliographic Details
Published inForests Vol. 14; no. 1; p. 101
Main Authors Chen, Juan, Lin, Yuhu, Fang, Ling, Li, Jinfang, Han, Suju, Li, Yudong, Li, Yan
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.01.2023
Subjects
Biomass
Carbohydrates
Chlorophyll
chlorophyll fluorescence
Climate change
Colonization
Desertification
Drought
Ecological function
Efficiency
Experiments
Females
Fluorescence
Hippophae rhamnoides
Humidity
Leaves
Males
Nitrogen
Nodules
Parameters
Photosynthesis
photosynthetic capacity
Root nodules
Sand
sand burial
Sex differences
Sex ratio
Sexes
Sexual dimorphism
Soil erosion
Sucrose
Survival
Water potential
United States > US
China
Sichuan China
Online AccessGet full text

Cover

More Information
Summary:(1) Background: In recent years, Hippophae rhamnoides has been used extensively to prevent desertification in China due to its nitrogen (N) fixation and sand stabilization abilities. However, as a dioecious species, few studies have focused on the sexual dimorphism of H. rhamnoides in response to sand burial, which frequently presents in desertification areas. (2) Methods: In this paper, we explored the ecophysiological responses of female and male saplings of H. rhamnoides under unburied treatment (control) and different sand burial depths (denoted as T33, T67, T90 and T133, corresponding to sand burial depths of 33, 67, 90 and 133 percent of the mean initial height of the saplings, respectively). (3) Results: Compared with unburied controls, the T33 treatment significantly promoted biomass accumulation and photosynthetic capacity, whereas T67 and T90 treatments inhibited biomass and physiological parameters of the two sexes. Deeper sand burial treatments, i.e., T90 and T133, significantly decreased the survival rates of the two sexes. Furthermore, the sex-specific responses of the two sexes of H. rhamnoides were affected by different depths of sand burial. Males had higher levels of stem starch and root sucrose and exhibited a larger increase in root nodule biomass under the T33 treatment, indicating better carbohydrate utilization and N fixation, whereas females showed lower total biomass and fewer root nodules, as well as more inhibition of photosynthetic and chlorophyll fluorescence parameters, water potential and root carbohydrates, indicating more negative effects on females than males under the T67 treatment. (4) Conclusions: We conclude that sex-related response and adaptation to sand burial depths may potentially affect the colonization, sex ratio and ecological function of the two sexes of H. rhamnoides in desertification areas.
ISSN:1999-4907
1999-4907
DOI:10.3390/f14010101