The response of biomass allocation in alfalfa and ryegrass to simulated spring frost

doi:10.1093/jpe/rtaf073

J Plant Ecol ›› 2025, Vol. 18 ›› Issue (4): rtaf073.DOI: 10.1093/jpe/rtaf073

• Research Articles •

The response of biomass allocation in alfalfa and ryegrass to simulated spring frost

Alinuer Alimu^a,b,c,d, Siyu Wang^a,b,c,d,*, Yao Wang^e, Zhonglin Xu^a,b,c,d,*

^aCollege of Ecology and Environment, Xinjiang University
^bTechnology Innovation Center for Ecological Monitoring and Restoration of Desert-Oasis, MNR
^cKey Laboratory of Oasis Ecology, Ministry of Education (Xinjiang University)
^dXinjiang Jinghe Observation and Research Station of Temperate Desert Ecosystem, Ministry of Education
^eInstitute of Desert Meteorology, China Meteorological Administration, Urumqi 830002, China

^*Correspondence: Zhonglin Xu (galinwa@gmail.com), Siyu Wang (eswangsiyu@hotmail.com)

Received:2024-09-29 Accepted:2025-05-06 Online:2025-05-23 Published:2025-08-01
Supported by:
This research was funded by Natural Science Foundation of Xinjiang Uygur Autonomous Region (2022D01B234, 2023E01006) and Xinjiang Uygur Autonomous Region Young Scientific and Technological Innovation Talents (Top-notch Young Talents) Program.

苜蓿和黑麦草生物量分配对模拟春霜的响应

Abstract

Abstract: Spring frost involves low temperatures in spring. Research shows cold snaps can alter herbaceous plants' biomass allocation, impacting grassland ecosystems. However, the exact effects of frost timing and severity remain unclear. This study simulated spring frost based on characteristics of spring frost on the northern slope of the Tianshan Mountains to examine how alfalfa (Medicago sativa) and ryegrass (Lolium spp.) adjust biomass allocation under varying frost intensities and timings, including interspecific differences in these responses. The findings revealed that (1) compared to the control group (which did not undergo low-temperature treatment), alfalfa was more sensitive to high-intensity spring frost, exhibiting a significant decrease of 13.6% in the root weight ratio and increases of 8.65% and 4.96% in the stem and leaf weight ratios, respectively. In contrast, ryegrass displayed an inverse trend, although the changes were not significant. (2) Early stage spring frost (immediately after thinning) significantly affected alfalfa biomass allocation, leading to an 11.28% decrease in the root weight ratio, whereas it also significant increases of 3.78% the stem weight ratio by 7.51% and leaf weight ratio. In contrast, late stage spring frost (applied on the 17rd day after thinning) had a relatively greater effect on ryegrass, with the root weight ratio increasing by 4.13% and the stem weight ratio decreasing by 4.18%. These findings reveal plants' distinct adaptations to cryogenic stresses, improving our understanding of herbaceous growth responses to extreme weather in arid zones and offering data to support grassland ecosystem services in Xinjiang.

Key words: spring frost simulated, various intensities, different occurrence times, biomass allocation, inter-specific differences, herbaceous plants

摘要：
春霜是春季出现的一种低温天气现象(倒春寒)。研究表明，寒流会改变草本植物的生物量分配模式，从而影响草地生态系统。然而，倒春寒发生时间和强度的具体影响仍不清楚。本研究以天山北坡倒春寒特征为基础，通过模拟春霜实验探讨苜蓿(Medicago sativa)和黑麦草(Lolium spp.)生物量分配如何响应不同强度和不同时间的倒春寒，包括种间响应差异。结果表明：(1)与对照组(未施加低温处理)相比，苜蓿对高强度倒春寒响应较为敏感，其根重比显著下降了13.6%，茎重比和叶重比分别增加了8.65%和4.96%；黑麦草呈现相反趋势，但变化不显著。(2)早期倒春寒(定苗后立即施加低温处理)显著影响苜蓿生物量分配，导致其根重比降低了11.28%，而茎重比和叶重比增加了3.78%和7.51%；晚期倒春寒(定苗后第17天施加低温处理)对黑麦草比对苜蓿的影响更大，黑麦草的根重比增加了4.13%，茎重比降低了4.18%。上述结果揭示了植物应对低温胁迫的独特适应性，有助于深入认识干旱区草本植物对极端天气的响应，为维持新疆草地生态系统服务功能提供了数据支持。

关键词: 模拟倒春寒, 霜冻时间和严重程度, 生物量分配, 极端天气, 干旱区草本植物

Alinuer Alimu, Siyu Wang, Yao Wang, Zhonglin Xu. The response of biomass allocation in alfalfa and ryegrass to simulated spring frost[J]. J Plant Ecol, 2025, 18(4): 1-26.

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The response of biomass allocation in alfalfa and ryegrass to simulated spring frost

苜蓿和黑麦草生物量分配对模拟春霜的响应

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