FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2095388618> ?p ?o ?g. }

• W2095388618 endingPage "575" @default.
• W2095388618 startingPage "575" @default.
• W2095388618 abstract "Decreasing light availability with time is one of the primary factors that drives autogenic succession in woodland communities. In many successions, the pattern of species replacement appears to be largely a consequence of a negative correlation across species between adaptation to high irradiance and adaptation to low irradiance (Bazzaz 1979, Oliver and Larson 1990, Kobe et al. 1995). The mechanistic basis for this negative correlation can be explained with respect to at least two distinct fitness components: 1) the maximization of light interception and 2) the maximization of net carbon fixation per unit leaf protein (Givnish 1988). A plant grown under high irradiance can maximize light interception through a highly branched, bushy growth form (Steingraeber et al. 1979, Shukla and Ramakrishnan 1986). Maximum net carbon fixation under high irradiance is achieved through sun-adapted leaf physiology (Bj6rkman 1981). In contrast, for a plant grown under low irradiance, light interception is maximized through strong vertical growth (King 1990), and net carbon fixation is maximized through shadeadapted leaf physiology (Bjdrkman 1981). The term has long been used to describe the suite of leaf-level traits that afford maximal net carbon fixation under low irradiance. Less commonly, the analogous term has been used to describe the suite of architectural traits that contribute to strong vertical growth in plants grown under low irradiance (Grime 1966, Smith 1986, 1994). Although many components of shade tolerance and shade avoidance have been studied along light gradients, the relationship between these strategies has received very little theoretical and empirical attention (Kuppers 1994). Do they represent alternative adaptations to light limitation with patterns of covariance that reflect tradeoffs through life history or phylogenetic constraints (Smith 1986)? Alternatively, are the distributions across taxa, of shade avoidance and shade tolerance, independent of each other? In this paper, we briefly review the mechanistic basis of shade tolerance and shade avoidance to illustrate that both of these strategies can be expected to impose costs (trade-offs) to a plant in terms of reduced relative growth rate under high irradiance (Fig. 1). By interpreting these costs in the context of different selection regimes within vegetation, we arrive at the prediction that shade tolerance and shade avoidance strategies should be generally negatively correlated along light gradients." @default.
• W2095388618 created "2016-06-24" @default.
• W2095388618 creator A5015213972 @default.
• W2095388618 creator A5068293412 @default.
• W2095388618 date "1997-12-01" @default.
• W2095388618 modified "2023-10-05" @default.
• W2095388618 title "On the Relationship between Shade Tolerance and Shade Avoidance Strategies in Woodland Plants" @default.
• W2095388618 cites W1052883863 @default.
• W2095388618 cites W1511086006 @default.
• W2095388618 cites W1541588724 @default.
• W2095388618 cites W1729826386 @default.
• W2095388618 cites W1782697039 @default.
• W2095388618 cites W1877601592 @default.
• W2095388618 cites W1971509094 @default.
• W2095388618 cites W1981305765 @default.
• W2095388618 cites W1993246939 @default.
• W2095388618 cites W2001053722 @default.
• W2095388618 cites W2012246271 @default.
• W2095388618 cites W2044511749 @default.
• W2095388618 cites W2050541739 @default.
• W2095388618 cites W2051205335 @default.
• W2095388618 cites W2055043776 @default.
• W2095388618 cites W2056640260 @default.
• W2095388618 cites W2057159665 @default.
• W2095388618 cites W2062748726 @default.
• W2095388618 cites W2071639521 @default.
• W2095388618 cites W2073988573 @default.
• W2095388618 cites W2074209207 @default.
• W2095388618 cites W2074933525 @default.
• W2095388618 cites W2077673910 @default.
• W2095388618 cites W2085941983 @default.
• W2095388618 cites W2090406794 @default.
• W2095388618 cites W2091790645 @default.
• W2095388618 cites W2093846586 @default.
• W2095388618 cites W2098654279 @default.
• W2095388618 cites W2104626718 @default.
• W2095388618 cites W2118773089 @default.
• W2095388618 cites W2121963940 @default.
• W2095388618 cites W2134108083 @default.
• W2095388618 cites W2136775576 @default.
• W2095388618 cites W2145856974 @default.
• W2095388618 cites W2167780153 @default.
• W2095388618 cites W2170922186 @default.
• W2095388618 cites W2181191498 @default.
• W2095388618 cites W2288464174 @default.
• W2095388618 cites W2312641272 @default.
• W2095388618 cites W2315857237 @default.
• W2095388618 cites W2316356915 @default.
• W2095388618 cites W2322007257 @default.
• W2095388618 cites W2325575687 @default.
• W2095388618 cites W2335187214 @default.
• W2095388618 cites W2335758017 @default.
• W2095388618 cites W2340907017 @default.
• W2095388618 cites W2484821718 @default.
• W2095388618 cites W2501089363 @default.
• W2095388618 cites W2615531769 @default.
• W2095388618 cites W3166200721 @default.
• W2095388618 cites W65155828 @default.
• W2095388618 cites W75152560 @default.
• W2095388618 cites W2464599553 @default.
• W2095388618 doi "https://doi.org/10.2307/3546632" @default.
• W2095388618 hasPublicationYear "1997" @default.
• W2095388618 type Work @default.
• W2095388618 sameAs 2095388618 @default.
• W2095388618 citedByCount "100" @default.
• W2095388618 countsByYear W20953886182012 @default.
• W2095388618 countsByYear W20953886182013 @default.
• W2095388618 countsByYear W20953886182014 @default.
• W2095388618 countsByYear W20953886182015 @default.
• W2095388618 countsByYear W20953886182016 @default.
• W2095388618 countsByYear W20953886182017 @default.
• W2095388618 countsByYear W20953886182018 @default.
• W2095388618 countsByYear W20953886182019 @default.
• W2095388618 countsByYear W20953886182020 @default.
• W2095388618 countsByYear W20953886182021 @default.
• W2095388618 countsByYear W20953886182022 @default.
• W2095388618 countsByYear W20953886182023 @default.
• W2095388618 crossrefType "journal-article" @default.
• W2095388618 hasAuthorship W2095388618A5015213972 @default.
• W2095388618 hasAuthorship W2095388618A5068293412 @default.
• W2095388618 hasConcept C101000010 @default.
• W2095388618 hasConcept C139468788 @default.
• W2095388618 hasConcept C18903297 @default.
• W2095388618 hasConcept C203174812 @default.
• W2095388618 hasConcept C39432304 @default.
• W2095388618 hasConcept C86803240 @default.
• W2095388618 hasConceptScore W2095388618C101000010 @default.
• W2095388618 hasConceptScore W2095388618C139468788 @default.
• W2095388618 hasConceptScore W2095388618C18903297 @default.
• W2095388618 hasConceptScore W2095388618C203174812 @default.
• W2095388618 hasConceptScore W2095388618C39432304 @default.
• W2095388618 hasConceptScore W2095388618C86803240 @default.
• W2095388618 hasIssue "3" @default.
• W2095388618 hasLocation W20953886181 @default.
• W2095388618 hasOpenAccess W2095388618 @default.
• W2095388618 hasPrimaryLocation W20953886181 @default.
• W2095388618 hasRelatedWork W1641042124 @default.
• W2095388618 hasRelatedWork W1990804418 @default.

• next