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Effects of waterlogging at different duration on growth and physiological characteristics of Cenchrus fungigraminus

Simeng Song, Hengyu Zhou, Yuan Luo, Shikui Yu, Dewei Su, Dan Zheng, Z. Z. Zhang, Zongzhi Luo, Bin Liu, Zhanxi Lin, Dongmei Lin

2025Environmental and Experimental Botany8 citationsDOIOpen Access PDF

Abstract

Waterlogging, or excessive accumulation of water in the soil, poses significant stress to riparian ecosystems and agroforestry, especially with increasing global rainfall. Cenchrus fungigraminus is a vital agricultural resource, biomaterial, and super-energy plant with high resistance and adaptability. This study examined its morphological and physiological responses under root and above-ground waterlogging for up to 30 days. Results showed that waterlogging significantly inhibited growth, reducing membrane permeability, and root activity, and accelerating leaf senescence ( P < 0.05). Despite this, C. fungigraminus achieved 100 % survival after 30 days of waterlogging. The plant adapted to the hypoxic environment by enhancing oxygen channels through cortex cell loosening, lysigenous tissue formation, and adventitious root development. It also activated defense mechanisms, increasing the activities of antioxidant enzymes (SOD, POD, and CAT), levels of non-enzymatic antioxidants (AsA and GSH), osmotic regulators (SS, SP, and Pro), and anaerobic respiratory enzymes (PDC, ADH, and LDH), and hormones (ABA, IAA, GA, and ETH). Under two levels of waterlogging depth, the plant initially adopted the Low-O 2 escape strategy (LOES), but over time, it transitioned to the Low-O 2 quiescence strategy (LOQS), while still retaining some features of the LOES. Our results revealed that C. fungigraminus demonstrates strong adaptability to waterlogging, especially in response to root waterlogging. By employing anatomical adjustments and exceptional cellular defense mechanisms, the species effectively mitigates damage, establishing itself as an excellent forage grass for slope protection under waterlogged conditions. These results offer valuable guidance for selecting waterlogging-tolerant species to restore and rehabilitate degraded riparian ecosystems in the Yellow River Basin, optimize land use in waterlogging-prone areas, and advance the genetic improvement of waterlogging tolerance in other forage varieties. • Waterlogging stress affected Cenchrus fungigraminus growth and physiological traits. • The effects of waterlogging varied substantially with duration and depth. • C. fungigraminus adapted to waterlogging through anatomical and physiological adjustments. • C. fungigraminus exhibited stronger adaptation and defense to root than above-ground waterlogging. • C. fungigraminus initially adopted the LOES strategy, later shifted to LOQS while retaining LOES traits.

Topics & Concepts

Waterlogging (archaeology)Duration (music)Cenchrus ciliarisBiologyAgronomyBotanyEcologyPhysicsAcousticsWetlandPlant responses to water stressCoastal wetland ecosystem dynamicsPlant Stress Responses and Tolerance