SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3195157070> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W3195157070 endingPage "3376" @default.
W3195157070 startingPage "3376" @default.
W3195157070 abstract "Remote sensing holds great potential for detecting stress in vegetation caused by hydrocarbons, but we need to better understand the effects of hydrocarbons on plant growth and specific spectral expression. Willow (Salix viminalis var. Tora) cuttings and maize (Zea mays var. Lapriora) seedlings were grown in pots of loam soil containing a hydrocarbon-contaminated layer at the base of the pot (crude or refined oil) at concentrations of 0.5, 5, or 50 g·kg−1. Chlorophyll concentration, biomass, and growth of plants were determined through destructive and nondestructive sampling, whilst reflectance measurements were made using portable hyperspectral spectrometers. All biophysical (chlorophyll concentration and growth) variables decreased in the presence of high concentrations of hydrocarbons, but at lower concentrations an increase in growth and chlorophyll were often observed with respect to nonpolluted plants, suggesting a biphasic response to hydrocarbon presence. Absorption features were identified that related strongly to pigment concentration and biomass. Variations in absorption feature characteristics (band depth, band area, and band width) were dependent upon the hydrocarbon concentration and type, and showed the same biphasic pattern noted in the biophysical measurements. This study demonstrates that the response of plants to hydrocarbon pollution varies according to hydrocarbon concentration and that remote sensing has the potential to both detect and monitor the variable impacts of pollution in the landscape." @default.
W3195157070 created "2021-08-30" @default.
W3195157070 creator A5063195856 @default.
W3195157070 creator A5079365062 @default.
W3195157070 creator A5083744785 @default.
W3195157070 date "2021-08-25" @default.
W3195157070 modified "2023-09-27" @default.
W3195157070 title "Spectral and Growth Characteristics of Willows and Maize in Soil Contaminated with a Layer of Crude or Refined Oil" @default.
W3195157070 cites W1515353041 @default.
W3195157070 cites W1539414958 @default.
W3195157070 cites W1752299535 @default.
W3195157070 cites W1944729816 @default.
W3195157070 cites W1968032445 @default.
W3195157070 cites W1978617972 @default.
W3195157070 cites W1981673641 @default.
W3195157070 cites W1998955499 @default.
W3195157070 cites W1999631720 @default.
W3195157070 cites W1999828361 @default.
W3195157070 cites W2006687347 @default.
W3195157070 cites W2011212000 @default.
W3195157070 cites W2012564082 @default.
W3195157070 cites W2014764291 @default.
W3195157070 cites W2015799298 @default.
W3195157070 cites W2024905243 @default.
W3195157070 cites W2025193759 @default.
W3195157070 cites W2031975583 @default.
W3195157070 cites W2032935471 @default.
W3195157070 cites W2046404820 @default.
W3195157070 cites W2049227061 @default.
W3195157070 cites W2050922564 @default.
W3195157070 cites W2052625611 @default.
W3195157070 cites W2062498293 @default.
W3195157070 cites W2067668323 @default.
W3195157070 cites W2068774424 @default.
W3195157070 cites W2073555669 @default.
W3195157070 cites W2074107859 @default.
W3195157070 cites W2075546765 @default.
W3195157070 cites W2079485227 @default.
W3195157070 cites W2083955053 @default.
W3195157070 cites W2095119178 @default.
W3195157070 cites W2098188176 @default.
W3195157070 cites W2099400014 @default.
W3195157070 cites W2109606373 @default.
W3195157070 cites W2110520888 @default.
W3195157070 cites W2111947859 @default.
W3195157070 cites W2132527497 @default.
W3195157070 cites W2135323340 @default.
W3195157070 cites W2159961845 @default.
W3195157070 cites W2171925487 @default.
W3195157070 cites W2335831500 @default.
W3195157070 cites W2342243125 @default.
W3195157070 cites W2415605253 @default.
W3195157070 cites W2463502472 @default.
W3195157070 cites W2466878032 @default.
W3195157070 cites W2523770623 @default.
W3195157070 cites W2534208676 @default.
W3195157070 cites W2544189921 @default.
W3195157070 cites W2548357517 @default.
W3195157070 cites W2548431881 @default.
W3195157070 cites W2563122184 @default.
W3195157070 cites W2573542790 @default.
W3195157070 cites W2593527612 @default.
W3195157070 cites W2763910821 @default.
W3195157070 cites W2776012117 @default.
W3195157070 cites W2780625821 @default.
W3195157070 cites W2785173684 @default.
W3195157070 cites W2792422584 @default.
W3195157070 cites W2875861538 @default.
W3195157070 cites W2897612789 @default.
W3195157070 cites W2901590957 @default.
W3195157070 cites W2908858401 @default.
W3195157070 cites W2947084069 @default.
W3195157070 cites W2972480283 @default.
W3195157070 cites W2972802487 @default.
W3195157070 cites W3011457964 @default.
W3195157070 cites W3016464636 @default.
W3195157070 cites W3099691904 @default.
W3195157070 cites W633320881 @default.
W3195157070 cites W71574638 @default.
W3195157070 cites W9910819 @default.
W3195157070 doi "https://doi.org/10.3390/rs13173376" @default.
W3195157070 hasPublicationYear "2021" @default.
W3195157070 type Work @default.
W3195157070 sameAs 3195157070 @default.
W3195157070 citedByCount "5" @default.
W3195157070 countsByYear W31951570702022 @default.
W3195157070 countsByYear W31951570702023 @default.
W3195157070 crossrefType "journal-article" @default.
W3195157070 hasAuthorship W3195157070A5063195856 @default.
W3195157070 hasAuthorship W3195157070A5079365062 @default.
W3195157070 hasAuthorship W3195157070A5083744785 @default.
W3195157070 hasBestOaLocation W31951570701 @default.
W3195157070 hasConcept C107872376 @default.
W3195157070 hasConcept C113578266 @default.
W3195157070 hasConcept C115540264 @default.
W3195157070 hasConcept C159390177 @default.
W3195157070 hasConcept C159750122 @default.
W3195157070 hasConcept C178790620 @default.