Response of seed germination and seedling growth of perennial ryegrass (Lolium perenne L.) to drought, salinity, and pH in Karst regions
Seed germination and seedling growth are crucial for the successful establishment and reproduction of plants in heterogeneous environments, especially in the ecologically fragile karst regions. Despite the ecological importance of perennial ryegrass ( Lolium perenne L.) as a forage resource and its...
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| Published in | Scientific reports Vol. 15; no. 1; pp. 16874 - 13 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
15.05.2025
Nature Publishing Group Nature Portfolio |
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| Abstract | Seed germination and seedling growth are crucial for the successful establishment and reproduction of plants in heterogeneous environments, especially in the ecologically fragile karst regions. Despite the ecological importance of perennial ryegrass (
Lolium perenne
L.) as a forage resource and its role in mitigating rocky desertification, studies addressing the effects of karst-specific environmental factors on its early growth stages are limited. This study is the first to simulate karst soil conditions to evaluate the impacts of drought (0–0.53 MPa), salinity (0–150 mM), and pH (pH 3–9) on seed germination and seedling growth of perennial ryegrass. The results showed that under different drought stresses, water potentials ranging from 0 to − 0.32 MPa had no significant effect on seed germination. However, water potentials of − 0.06 MPa and − 0.17 MPa significantly promoted root and shoot growth, as well as increased biomass. In the salt stress experiment, CaCl
2
concentrations of 5–10 mM favored seed germination; specifically, 5 mM CaCl
2
increased the germination rate to 96.5%, and root and shoot lengths exceeded those of the control. pH levels ranging from 3 to 9 had little effect on germination, but extremely acidic conditions (pH 3) significantly inhibited root and shoot elongation. Therefore, optimal growth conditions were determined to be drought stress from 0 to − 0.17 MPa, calcium salt stress from 0 to 25 mM, and a pH of 4 to 9. These findings identify optimal growth conditions for perennial ryegrass, providing a scientific basis for seed cultivation, pasture management, and ecological restoration in karst regions. Our study contributes to the understanding of plant responses to environmental stresses in karst systems and supports sustainable agricultural and conservation practices. |
|---|---|
| AbstractList | Abstract Seed germination and seedling growth are crucial for the successful establishment and reproduction of plants in heterogeneous environments, especially in the ecologically fragile karst regions. Despite the ecological importance of perennial ryegrass (Lolium perenne L.) as a forage resource and its role in mitigating rocky desertification, studies addressing the effects of karst-specific environmental factors on its early growth stages are limited. This study is the first to simulate karst soil conditions to evaluate the impacts of drought (0–0.53 MPa), salinity (0–150 mM), and pH (pH 3–9) on seed germination and seedling growth of perennial ryegrass. The results showed that under different drought stresses, water potentials ranging from 0 to − 0.32 MPa had no significant effect on seed germination. However, water potentials of − 0.06 MPa and − 0.17 MPa significantly promoted root and shoot growth, as well as increased biomass. In the salt stress experiment, CaCl2 concentrations of 5–10 mM favored seed germination; specifically, 5 mM CaCl2 increased the germination rate to 96.5%, and root and shoot lengths exceeded those of the control. pH levels ranging from 3 to 9 had little effect on germination, but extremely acidic conditions (pH 3) significantly inhibited root and shoot elongation. Therefore, optimal growth conditions were determined to be drought stress from 0 to − 0.17 MPa, calcium salt stress from 0 to 25 mM, and a pH of 4 to 9. These findings identify optimal growth conditions for perennial ryegrass, providing a scientific basis for seed cultivation, pasture management, and ecological restoration in karst regions. Our study contributes to the understanding of plant responses to environmental stresses in karst systems and supports sustainable agricultural and conservation practices. Seed germination and seedling growth are crucial for the successful establishment and reproduction of plants in heterogeneous environments, especially in the ecologically fragile karst regions. Despite the ecological importance of perennial ryegrass (Lolium perenne L.) as a forage resource and its role in mitigating rocky desertification, studies addressing the effects of karst-specific environmental factors on its early growth stages are limited. This study is the first to simulate karst soil conditions to evaluate the impacts of drought (0–0.53 MPa), salinity (0–150 mM), and pH (pH 3–9) on seed germination and seedling growth of perennial ryegrass. The results showed that under different drought stresses, water potentials ranging from 0 to − 0.32 MPa had no significant effect on seed germination. However, water potentials of − 0.06 MPa and − 0.17 MPa significantly promoted root and shoot growth, as well as increased biomass. In the salt stress experiment, CaCl2 concentrations of 5–10 mM favored seed germination; specifically, 5 mM CaCl2 increased the germination rate to 96.5%, and root and shoot lengths exceeded those of the control. pH levels ranging from 3 to 9 had little effect on germination, but extremely acidic conditions (pH 3) significantly inhibited root and shoot elongation. Therefore, optimal growth conditions were determined to be drought stress from 0 to − 0.17 MPa, calcium salt stress from 0 to 25 mM, and a pH of 4 to 9. These findings identify optimal growth conditions for perennial ryegrass, providing a scientific basis for seed cultivation, pasture management, and ecological restoration in karst regions. Our study contributes to the understanding of plant responses to environmental stresses in karst systems and supports sustainable agricultural and conservation practices. Seed germination and seedling growth are crucial for the successful establishment and reproduction of plants in heterogeneous environments, especially in the ecologically fragile karst regions. Despite the ecological importance of perennial ryegrass ( Lolium perenne L.) as a forage resource and its role in mitigating rocky desertification, studies addressing the effects of karst-specific environmental factors on its early growth stages are limited. This study is the first to simulate karst soil conditions to evaluate the impacts of drought (0–0.53 MPa), salinity (0–150 mM), and pH (pH 3–9) on seed germination and seedling growth of perennial ryegrass. The results showed that under different drought stresses, water potentials ranging from 0 to − 0.32 MPa had no significant effect on seed germination. However, water potentials of − 0.06 MPa and − 0.17 MPa significantly promoted root and shoot growth, as well as increased biomass. In the salt stress experiment, CaCl 2 concentrations of 5–10 mM favored seed germination; specifically, 5 mM CaCl 2 increased the germination rate to 96.5%, and root and shoot lengths exceeded those of the control. pH levels ranging from 3 to 9 had little effect on germination, but extremely acidic conditions (pH 3) significantly inhibited root and shoot elongation. Therefore, optimal growth conditions were determined to be drought stress from 0 to − 0.17 MPa, calcium salt stress from 0 to 25 mM, and a pH of 4 to 9. These findings identify optimal growth conditions for perennial ryegrass, providing a scientific basis for seed cultivation, pasture management, and ecological restoration in karst regions. Our study contributes to the understanding of plant responses to environmental stresses in karst systems and supports sustainable agricultural and conservation practices. Seed germination and seedling growth are crucial for the successful establishment and reproduction of plants in heterogeneous environments, especially in the ecologically fragile karst regions. Despite the ecological importance of perennial ryegrass (Lolium perenne L.) as a forage resource and its role in mitigating rocky desertification, studies addressing the effects of karst-specific environmental factors on its early growth stages are limited. This study is the first to simulate karst soil conditions to evaluate the impacts of drought (0-0.53 MPa), salinity (0-150 mM), and pH (pH 3-9) on seed germination and seedling growth of perennial ryegrass. The results showed that under different drought stresses, water potentials ranging from 0 to - 0.32 MPa had no significant effect on seed germination. However, water potentials of - 0.06 MPa and - 0.17 MPa significantly promoted root and shoot growth, as well as increased biomass. In the salt stress experiment, CaCl concentrations of 5-10 mM favored seed germination; specifically, 5 mM CaCl increased the germination rate to 96.5%, and root and shoot lengths exceeded those of the control. pH levels ranging from 3 to 9 had little effect on germination, but extremely acidic conditions (pH 3) significantly inhibited root and shoot elongation. Therefore, optimal growth conditions were determined to be drought stress from 0 to - 0.17 MPa, calcium salt stress from 0 to 25 mM, and a pH of 4 to 9. These findings identify optimal growth conditions for perennial ryegrass, providing a scientific basis for seed cultivation, pasture management, and ecological restoration in karst regions. Our study contributes to the understanding of plant responses to environmental stresses in karst systems and supports sustainable agricultural and conservation practices. Seed germination and seedling growth are crucial for the successful establishment and reproduction of plants in heterogeneous environments, especially in the ecologically fragile karst regions. Despite the ecological importance of perennial ryegrass (Lolium perenne L.) as a forage resource and its role in mitigating rocky desertification, studies addressing the effects of karst-specific environmental factors on its early growth stages are limited. This study is the first to simulate karst soil conditions to evaluate the impacts of drought (0-0.53 MPa), salinity (0-150 mM), and pH (pH 3-9) on seed germination and seedling growth of perennial ryegrass. The results showed that under different drought stresses, water potentials ranging from 0 to - 0.32 MPa had no significant effect on seed germination. However, water potentials of - 0.06 MPa and - 0.17 MPa significantly promoted root and shoot growth, as well as increased biomass. In the salt stress experiment, CaCl2 concentrations of 5-10 mM favored seed germination; specifically, 5 mM CaCl2 increased the germination rate to 96.5%, and root and shoot lengths exceeded those of the control. pH levels ranging from 3 to 9 had little effect on germination, but extremely acidic conditions (pH 3) significantly inhibited root and shoot elongation. Therefore, optimal growth conditions were determined to be drought stress from 0 to - 0.17 MPa, calcium salt stress from 0 to 25 mM, and a pH of 4 to 9. These findings identify optimal growth conditions for perennial ryegrass, providing a scientific basis for seed cultivation, pasture management, and ecological restoration in karst regions. Our study contributes to the understanding of plant responses to environmental stresses in karst systems and supports sustainable agricultural and conservation practices.Seed germination and seedling growth are crucial for the successful establishment and reproduction of plants in heterogeneous environments, especially in the ecologically fragile karst regions. Despite the ecological importance of perennial ryegrass (Lolium perenne L.) as a forage resource and its role in mitigating rocky desertification, studies addressing the effects of karst-specific environmental factors on its early growth stages are limited. This study is the first to simulate karst soil conditions to evaluate the impacts of drought (0-0.53 MPa), salinity (0-150 mM), and pH (pH 3-9) on seed germination and seedling growth of perennial ryegrass. The results showed that under different drought stresses, water potentials ranging from 0 to - 0.32 MPa had no significant effect on seed germination. However, water potentials of - 0.06 MPa and - 0.17 MPa significantly promoted root and shoot growth, as well as increased biomass. In the salt stress experiment, CaCl2 concentrations of 5-10 mM favored seed germination; specifically, 5 mM CaCl2 increased the germination rate to 96.5%, and root and shoot lengths exceeded those of the control. pH levels ranging from 3 to 9 had little effect on germination, but extremely acidic conditions (pH 3) significantly inhibited root and shoot elongation. Therefore, optimal growth conditions were determined to be drought stress from 0 to - 0.17 MPa, calcium salt stress from 0 to 25 mM, and a pH of 4 to 9. These findings identify optimal growth conditions for perennial ryegrass, providing a scientific basis for seed cultivation, pasture management, and ecological restoration in karst regions. Our study contributes to the understanding of plant responses to environmental stresses in karst systems and supports sustainable agricultural and conservation practices. |
| ArticleNumber | 16874 |
| Author | Li, Junqin Wang, Xiangtao Wang, Puchang Gao, Yang Zhou, Zijun Zhao, Lili Yang, Yuting Huang, Haiyan Wang, Rui |
| Author_xml | – sequence: 1 givenname: Rui surname: Wang fullname: Wang, Rui organization: School of Life Sciences, Institute Guizhou Normal University – sequence: 2 givenname: Yuting surname: Yang fullname: Yang, Yuting organization: School of Life Sciences, Institute Guizhou Normal University – sequence: 3 givenname: Xiangtao surname: Wang fullname: Wang, Xiangtao organization: School of Life Sciences, Institute Guizhou Normal University – sequence: 4 givenname: Junqin surname: Li fullname: Li, Junqin organization: School of Life Sciences, Institute Guizhou Normal University – sequence: 5 givenname: Yang surname: Gao fullname: Gao, Yang organization: School of Karst Science, Institute Guizhou Normal University – sequence: 6 givenname: Haiyan surname: Huang fullname: Huang, Haiyan organization: School of Life Sciences, Institute Guizhou Normal University – sequence: 7 givenname: Zijun surname: Zhou fullname: Zhou, Zijun organization: School of Life Sciences, Institute Guizhou Normal University – sequence: 8 givenname: Puchang surname: Wang fullname: Wang, Puchang email: wangpuchang@163.com organization: School of Life Sciences, Institute Guizhou Normal University – sequence: 9 givenname: Lili surname: Zhao fullname: Zhao, Lili organization: College of Animal Science, Institute Guizhou University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/40374789$$D View this record in MEDLINE/PubMed |
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| Keywords | CaCl pH L Drought Karst areas Seed germination Lolium perenne L CaCl2 |
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| SubjectTerms | 631/158/2456 631/449/2668 Abiotic stress Biomass CaCl2 Calcium chloride Conservation practices Desertification Drought Droughts Environmental factors Environmental impact Environmental restoration Environmental stress Forage Germination - physiology Growth conditions Humanities and Social Sciences Hydrogen-Ion Concentration Karst Karst areas Lolium - growth & development Lolium - physiology Lolium perenne Lolium perenne L multidisciplinary Pasture Pasture management pH effects Plant reproduction Salinity Salinity effects Science Science (multidisciplinary) Seed germination Seedlings Seedlings - growth & development Seeds Seeds - growth & development Shoots Soil - chemistry Stress, Physiological Sustainable agriculture Water potential |
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| Title | Response of seed germination and seedling growth of perennial ryegrass (Lolium perenne L.) to drought, salinity, and pH in Karst regions |
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