FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3176806469> ?p ?o ?g. }

• W3176806469 endingPage "117392" @default.
• W3176806469 startingPage "117392" @default.
• W3176806469 abstract "Eutrophication strongly influences plant stoichiometric characteristics and physiological status by altering nutrient and light availability in the water column. However, the mechanisms linking plant functional traits with ecosystem structure and functioning to clarify the decline of submerged macrophytes have not been fully elucidated to date. Therefore, based on a field investigation of 26 macrophytic shallow lakes on the Yangtze Plain, we first constructed a plant trait network at the whole-plant level to determine the hub traits of submerged macrophytes that play central regulatory roles in plant phenotype. Our results suggested that organ (leaf, stem, and root) phosphorus (P), starch, and total nonstructural carbohydrate (TNC) contents were hub traits. Organ starch and TNC were consistent with those in the experiment-based network obtained from a three-month manipulation experiment. Next, the mechanisms underlying the relationships between the hub traits and vital aspects of ecological performance were carefully investigated using field investigation data. Specifically, stoichiometric homeostasis of P (HP), starch, and TNC were positively associated with dominance and biomass at the species level, and community biomass at the community level. Additionally, structural equation modeling clarified not only a hypothesized pathway from eutrophication to water clarity and community TNC, but also combined effects of community TNC and HP on community biomass. That is, ecosystems dominated by more homeostatic communities tended to have more carbon (C)-rich compounds in relatively oligotrophic conditions, which promoted the primary production of macrophytes. Eutrophication was determined to affect community structure by inhibiting the predominance of more homeostatic species and the production of carbohydrates. Finally, reduced community biomass and increased nutrient contents and nutrient:C ratios in plants induced by eutrophication implied a decrease in the C sink in biomass and may potentially lead to an enhancement of litter decomposition rates and nutrient cycling rates. By adjusting plant responses to eutrophication, stoichiometric and physiological mechanisms linking plant traits with ecosystem structure have important implications for understanding ecosystem processes, and these results may contribute to practical management to achieve the restoration of submerged macrophytes and ecosystem services." @default.
• W3176806469 created "2021-07-05" @default.
• W3176806469 creator A5003202382 @default.
• W3176806469 creator A5016786612 @default.
• W3176806469 creator A5017913143 @default.
• W3176806469 creator A5018844683 @default.
• W3176806469 creator A5026610957 @default.
• W3176806469 creator A5046812879 @default.
• W3176806469 creator A5063590922 @default.
• W3176806469 creator A5070928743 @default.
• W3176806469 creator A5074755903 @default.
• W3176806469 creator A5074985694 @default.
• W3176806469 creator A5082857859 @default.
• W3176806469 creator A5086099778 @default.
• W3176806469 date "2021-09-01" @default.
• W3176806469 modified "2023-10-11" @default.
• W3176806469 title "Stoichiometric and physiological mechanisms that link hub traits of submerged macrophytes with ecosystem structure and functioning" @default.
• W3176806469 cites W1532853192 @default.
• W3176806469 cites W1593147746 @default.
• W3176806469 cites W1966327575 @default.
• W3176806469 cites W1972626076 @default.
• W3176806469 cites W1973312333 @default.
• W3176806469 cites W1975816373 @default.
• W3176806469 cites W1977488457 @default.
• W3176806469 cites W1981286603 @default.
• W3176806469 cites W1984159569 @default.
• W3176806469 cites W1989082422 @default.
• W3176806469 cites W1997748988 @default.
• W3176806469 cites W2001940974 @default.
• W3176806469 cites W2002807853 @default.
• W3176806469 cites W2011941319 @default.
• W3176806469 cites W2030578135 @default.
• W3176806469 cites W2039768117 @default.
• W3176806469 cites W2060349954 @default.
• W3176806469 cites W2080581833 @default.
• W3176806469 cites W2082008228 @default.
• W3176806469 cites W2082981352 @default.
• W3176806469 cites W2089930623 @default.
• W3176806469 cites W2103948957 @default.
• W3176806469 cites W2110108403 @default.
• W3176806469 cites W2112775986 @default.
• W3176806469 cites W2134674051 @default.
• W3176806469 cites W2141091805 @default.
• W3176806469 cites W2146073476 @default.
• W3176806469 cites W2155595823 @default.
• W3176806469 cites W2157708370 @default.
• W3176806469 cites W2159549065 @default.
• W3176806469 cites W2164087962 @default.
• W3176806469 cites W2168173042 @default.
• W3176806469 cites W2175455955 @default.
• W3176806469 cites W2258647781 @default.
• W3176806469 cites W2517216361 @default.
• W3176806469 cites W2751109257 @default.
• W3176806469 cites W2765573203 @default.
• W3176806469 cites W2778763677 @default.
• W3176806469 cites W2885768156 @default.
• W3176806469 cites W2888949054 @default.
• W3176806469 cites W2893623831 @default.
• W3176806469 cites W2901369760 @default.
• W3176806469 cites W2945077162 @default.
• W3176806469 cites W2992355157 @default.
• W3176806469 cites W3006879518 @default.
• W3176806469 cites W3036927824 @default.
• W3176806469 cites W3037046965 @default.
• W3176806469 cites W3093962264 @default.
• W3176806469 cites W46194304 @default.
• W3176806469 doi "https://doi.org/10.1016/j.watres.2021.117392" @default.
• W3176806469 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34243052" @default.
• W3176806469 hasPublicationYear "2021" @default.
• W3176806469 type Work @default.
• W3176806469 sameAs 3176806469 @default.
• W3176806469 citedByCount "15" @default.
• W3176806469 countsByYear W31768064692021 @default.
• W3176806469 countsByYear W31768064692022 @default.
• W3176806469 countsByYear W31768064692023 @default.
• W3176806469 crossrefType "journal-article" @default.
• W3176806469 hasAuthorship W3176806469A5003202382 @default.
• W3176806469 hasAuthorship W3176806469A5016786612 @default.
• W3176806469 hasAuthorship W3176806469A5017913143 @default.
• W3176806469 hasAuthorship W3176806469A5018844683 @default.
• W3176806469 hasAuthorship W3176806469A5026610957 @default.
• W3176806469 hasAuthorship W3176806469A5046812879 @default.
• W3176806469 hasAuthorship W3176806469A5063590922 @default.
• W3176806469 hasAuthorship W3176806469A5070928743 @default.
• W3176806469 hasAuthorship W3176806469A5074755903 @default.
• W3176806469 hasAuthorship W3176806469A5074985694 @default.
• W3176806469 hasAuthorship W3176806469A5082857859 @default.
• W3176806469 hasAuthorship W3176806469A5086099778 @default.
• W3176806469 hasConcept C104317684 @default.
• W3176806469 hasConcept C110872660 @default.
• W3176806469 hasConcept C115540264 @default.
• W3176806469 hasConcept C132000320 @default.
• W3176806469 hasConcept C133079900 @default.
• W3176806469 hasConcept C142796444 @default.
• W3176806469 hasConcept C151913843 @default.
• W3176806469 hasConcept C164638232 @default.
• W3176806469 hasConcept C170859357 @default.
• W3176806469 hasConcept C175327387 @default.

• next