SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2098628797> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2098628797 endingPage "11253" @default.
W2098628797 startingPage "11248" @default.
W2098628797 abstract "Both engineered hydraulic systems and plant hydraulic systems are protected against failure by resistance, reparability, and redundancy. A basic rule of reliability engineering is that the level of independent redundancy should increase with increasing risk of fatal system failure. Here we show that hydraulic systems of plants function as predicted by this engineering rule. Hydraulic systems of shrubs sampled along two transcontinental aridity gradients changed with increasing aridity from highly integrated to independently redundant modular designs. Shrubs in humid environments tend to be hydraulically integrated, with single, round basal stems, whereas dryland shrubs typically have modular hydraulic systems and multiple, segmented basal stems. Modularity is achieved anatomically at the vessel-network scale or developmentally at the whole-plant scale through asymmetric secondary growth, which results in a semiclonal or clonal shrub growth form that appears to be ubiquitous in global deserts." @default.
W2098628797 created "2016-06-24" @default.
W2098628797 creator A5002450866 @default.
W2098628797 creator A5034661242 @default.
W2098628797 creator A5037637071 @default.
W2098628797 creator A5048301832 @default.
W2098628797 creator A5077275691 @default.
W2098628797 creator A5085073080 @default.
W2098628797 date "2008-08-12" @default.
W2098628797 modified "2023-10-06" @default.
W2098628797 title "Hydraulic integration and shrub growth form linked across continental aridity gradients" @default.
W2098628797 cites W1043624047 @default.
W2098628797 cites W1681950337 @default.
W2098628797 cites W1979042121 @default.
W2098628797 cites W1986793977 @default.
W2098628797 cites W2001781107 @default.
W2098628797 cites W2012292734 @default.
W2098628797 cites W2029074265 @default.
W2098628797 cites W2029843426 @default.
W2098628797 cites W2039337346 @default.
W2098628797 cites W2043519775 @default.
W2098628797 cites W2045717261 @default.
W2098628797 cites W2049772416 @default.
W2098628797 cites W2056666770 @default.
W2098628797 cites W2062924635 @default.
W2098628797 cites W2074860636 @default.
W2098628797 cites W2081555343 @default.
W2098628797 cites W2081858128 @default.
W2098628797 cites W2082468285 @default.
W2098628797 cites W2084640902 @default.
W2098628797 cites W2091669887 @default.
W2098628797 cites W2099530697 @default.
W2098628797 cites W2102536096 @default.
W2098628797 cites W2104432483 @default.
W2098628797 cites W2106547200 @default.
W2098628797 cites W2108926597 @default.
W2098628797 cites W2113838584 @default.
W2098628797 cites W2118295263 @default.
W2098628797 cites W2123314815 @default.
W2098628797 cites W2129078499 @default.
W2098628797 cites W2133293050 @default.
W2098628797 cites W2135061692 @default.
W2098628797 cites W2137725470 @default.
W2098628797 cites W2138798926 @default.
W2098628797 cites W2140913507 @default.
W2098628797 cites W2141774632 @default.
W2098628797 cites W2144127109 @default.
W2098628797 cites W2145853325 @default.
W2098628797 cites W2149149650 @default.
W2098628797 cites W2149863690 @default.
W2098628797 cites W2149866409 @default.
W2098628797 cites W2152121854 @default.
W2098628797 cites W2156582285 @default.
W2098628797 cites W2157086040 @default.
W2098628797 cites W2157855759 @default.
W2098628797 cites W2158152955 @default.
W2098628797 cites W2158716082 @default.
W2098628797 cites W2163789327 @default.
W2098628797 cites W2167975613 @default.
W2098628797 cites W2173032381 @default.
W2098628797 cites W2177568225 @default.
W2098628797 cites W2327629196 @default.
W2098628797 cites W2328379050 @default.
W2098628797 cites W2621559798 @default.
W2098628797 cites W4231882397 @default.
W2098628797 doi "https://doi.org/10.1073/pnas.0804294105" @default.
W2098628797 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2516251" @default.
W2098628797 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18678893" @default.
W2098628797 hasPublicationYear "2008" @default.
W2098628797 type Work @default.
W2098628797 sameAs 2098628797 @default.
W2098628797 citedByCount "139" @default.
W2098628797 countsByYear W20986287972012 @default.
W2098628797 countsByYear W20986287972013 @default.
W2098628797 countsByYear W20986287972014 @default.
W2098628797 countsByYear W20986287972015 @default.
W2098628797 countsByYear W20986287972016 @default.
W2098628797 countsByYear W20986287972017 @default.
W2098628797 countsByYear W20986287972018 @default.
W2098628797 countsByYear W20986287972019 @default.
W2098628797 countsByYear W20986287972020 @default.
W2098628797 countsByYear W20986287972021 @default.
W2098628797 countsByYear W20986287972022 @default.
W2098628797 countsByYear W20986287972023 @default.
W2098628797 crossrefType "journal-article" @default.
W2098628797 hasAuthorship W2098628797A5002450866 @default.
W2098628797 hasAuthorship W2098628797A5034661242 @default.
W2098628797 hasAuthorship W2098628797A5037637071 @default.
W2098628797 hasAuthorship W2098628797A5048301832 @default.
W2098628797 hasAuthorship W2098628797A5077275691 @default.
W2098628797 hasAuthorship W2098628797A5085073080 @default.
W2098628797 hasBestOaLocation W20986287971 @default.
W2098628797 hasConcept C101468663 @default.
W2098628797 hasConcept C111919701 @default.
W2098628797 hasConcept C11394606 @default.
W2098628797 hasConcept C121332964 @default.
W2098628797 hasConcept C127413603 @default.
W2098628797 hasConcept C150772632 @default.