Functional traits in macrophyte studies: Current trends and future research agenda

• Published in: Aquatic botany Vol. 167; p. 103290
• Main Authors: Dalla Vecchia, Alice, Villa, Paolo, Bolpagni, Rossano
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.10.2020
• Subjects: Anthropic pressures; Aquatic environments; Asia; biodiversity; Europe; invasive species; Leaf economics; leaves; Macrophytes; Remote sensing; Root traits; Asia; Europe; Root traits; Macrophytes; Anthropic pressures; Aquatic environments; Leaf economics; Remote sensing
• ISSN: 0304-3770; 1879-1522
• DOI: 10.1016/j.aquabot.2020.103290

•A growing interest is turned to the functional traits of macrophytes.•Studies on macrophyte traits have so far overlooked important biodiversity hotspots.•The study of invasive species has been mainly limited to few traits and subjects.•Root traits may explain important plant functions and need further research.•The use of remote sensing may help understanding plant functions at multiple scales. The use of functional traits (FTs) can provide quantitative information to explain macrophyte ecology more effectively than traditional taxonomic-based methods. This research aims to elucidate the trait-based approaches used in recent macrophyte studies to outline their applications, shortcomings, and future challenges. A systematic literature review focused on macrophytes and FTs was carried out on Scopus database (last accessed May 2020). The latest 520 papers published from 2010 to 2020, which represent 70 % of the whole literature selected since 1969, were carefully screened. Reviewed studies mainly investigated: 1) the role of FTs in shaping communities; 2) the responses of macrophytes to environmental gradients; 3) the application of FTs in monitoring anthropic pressures; and 4) the reasons for success of invasive species. Studied areas were concentrated in Europe (41 %) and Asia (32 %), overlooking other important biodiversity hotspots, and only 6.2 % of the world macrophytes species were investigated in dedicated single species studies. The FTs most commonly used include leaf economic and morphological traits, and we noticed a lack of attention on root traits and in general on spatial traits patterns, as well as a relatively poor understanding of how FTs mediate biotic interactions. High-throughput techniques, such as remote sensing, allow to map fine-scale variability of selected traits within and across systems, helping to clarify multiple links of FTs with ecological drivers and processes. We advise to promote investigations on root traits, and to push forward the integration of multiple approaches to better clarify the role of macrophytes at multiple scales.