Nickel excess affects phenology and reproductive attributes of Asterella wallichiana and Plagiochasma appendiculatum growing in natural habitats

• Published in: Scientific reports Vol. 11; no. 1; p. 3369
• Main Authors: Sharma, Anil, Bhagat, Madhu, Urfan, Mohammad, Ahmed, Bilal, Langer, Anima, Ali, Villayat, Vyas, Dhiraj, Yadav, Narendra Singh, Hakla, Haroon Rashid, Sharma, Shubham, Pal, Sikander
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 09.02.2021; Nature Publishing Group; Nature Portfolio
• Subjects: 631/449; 631/449/2661; 704/158; Aquatic plants; Asterella; Carbon; Enzymes; Habitats; Heavy metals; Humanities and Social Sciences; Life cycles; Marchantiophyta; Morphology; multidisciplinary; Nickel; Nitrogen; Phenology; Phosphorus; Physiology; Plagiochasma; Plant sciences; Pollution; Population viability; Reproductive organs; Science; Science (multidisciplinary); Soil contamination; Soil pollution; Zinc
• ISSN: 2045-2322; 2045-2322
• DOI: 10.1038/s41598-020-73441-1

Bryophytes are potent metal absorbers, thriving well on heavy metal (HM)-polluted soils. Mechanisms controlling uptake, compartmentalization and impacts of HMs on bryophytes life cycle are largely unknown. The current study is an effort to decipher mechanisms of nickel (Ni) excess-induced effects on the phenological events of two bryophytes, Asterella wallichiana and Plagiochasma apendiculatum growing in natural habitats. Observations revealed Ni-excess induced negative impacts on abundance, frequency of occurrence of reproductive organs, population viability and morphological traits, spore viability and physiological attributes of both the liverworts. Results led us conclude that P . appendiculatum survived better with the lowest impact on its life cycle events than A . wallichiana under Ni excess in natural habitats. Our findings collectively provide insights into the previously unknown mechanisms of Ni-induced responses in liverworts with respect to phenological attributes, as well as demonstrate the potential of P . appendiculatum to survive better in Ni excess habitats.