Lemna gibba Clones Show Differences in Phenotypic Responses to the Light Environment

Xuan, Pham Thi Hong and Amri, Raja and Bach, Nguyen Phuog and Irfan, Muhammad and Bog, Manuela and Appenroth, Klaus-J. and Sree, Kandregula Sowjanya and Jansen, Marcel A. K. and Szabó, Sándor and Mészáros, Ilona and Oláh, Viktor (2025) Lemna gibba Clones Show Differences in Phenotypic Responses to the Light Environment. PLANTS, 14 (18). No.-2840. ISSN 2223-7747

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Abstract

Duckweeds are aquatic plants with a worldwide distribution that can thrive under very contrasting ambient conditions due to their diversity and high phenotypic plasticity. In this study, we analyzed and compared the responses of four clones (i.e., distinct accessions) of Lemna gibba to two different light intensities. The clones represented different geographical origins and, in addition to two diploid cytotypes, included one tetraploid mutant and a triploid interspecific hybrid. We hypothesized that clonal origin had an effect on light acclimation. We studied growth, morphological (frond size and shape, mass-to-area ratio), and photosynthetic (pigment composition, chlorophyll fluorescence induction) traits of these clones to test whether light acclimation was a conserved process or whether clonespecific strategies could be found. We also analyzed frond-level photosynthetic adjustment during ontogenesis to track how light acclimation evolved in developing fronds. Our results confirmed that even clones of the same duckweed species and a hybrid of closely related species followed partially different strategies in acclimation to ambient conditions. This acclimation involved various morphological, physiological, and biochemical adjustments but happened in a very short time window at the early life stage when young, still-developing fronds could flexibly achieve an optimized phenotype. In addition to explaining the worldwide success of duckweeds in colonizing very contrasting habitats, our results also highlight the importance of approaching duckweed responses at the frond level, where the actual acclimation takes place.

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