FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2769968344> ?p ?o ?g. }

• W2769968344 endingPage "30" @default.
• W2769968344 startingPage "22" @default.
• W2769968344 abstract "Large-scale sand control and afforestation in the Mu Us Sandy land of China have greatly improved soil nutrients and physicochemical properties; however, little is known about their effects on soil biological properties. This study aimed to investigate the changes in soil microbial biomass and enzyme activities and their relationships with soil physicochemical properties during sand land rehabilitation. Soil samples were collected from the shrub and arbor plantations with an age sequence of 20, 30, and 51 years in Yulin at depths of 0–10 cm and 10–20 cm and with semi-fixed sand land selected as a control (0-year-old site). The soil physicochemical and biological properties in the 0–10 cm soil layer were significantly (P < 0.001) higher than in the 10–20 cm soil layer for all stand lands. The soil microbial biomass (e.g., microbial carbon and nitrogen) in the 0–10 cm and 10–20 cm layers greatly increased, by 1.58–5.59 times and 2.27–6.07 times, respectively, during the revegetation of shrub and arbor from 20 to 30 years on the control land. During the same period, the activities of soil catalase, urease, alkaline phosphatase and invertase also greatly increased, by 1.27–2.18, 0.59–1.23, 0.48–3.66 and 0.57–2.72 times in shrub land, respectively, whereas they increased by 1.51–2.73, 0.46–2.09, 0.97–2.79 and 2.00–6.65 times in arbor land, respectively, compared with the control land. However, during the 30–51 years of revegetation on the control land, the soil microbial biomass and all enzyme activities remained relatively stable or slightly increased in the arbor land, whereas they were reduced in the shrub land. The soil organic carbon (SOC), dissolved organic carbon (DOC), total nitrogen (TN) and available nitrogen (AN) contents also greatly increased after revegetation in the control land. Principal component analysis (PCA) also confirmed that most of the chemical and biological properties were influenced by the afforestation and showed coordinated variation between the analyzed parameters. Moreover, redundancy analysis (RDA) showed that the soil microbial biomass and enzyme activities were correlated with the changes of SOC, DOC and TN, whereas they were negatively correlated with the bulk density, pH and total potassium. Therefore, we concluded that revegetation by the establishment of both shrub and arbor plantations significantly improved soil biological properties. Moreover, SOC, DOC and TN were regarded as the key factors in the enhancement of soil biological activity during desertified land revegetation in the Mu Us Sandy land of China." @default.
• W2769968344 created "2017-12-04" @default.
• W2769968344 creator A5017655580 @default.
• W2769968344 creator A5027282179 @default.
• W2769968344 creator A5063922467 @default.
• W2769968344 creator A5066186077 @default.
• W2769968344 creator A5077787580 @default.
• W2769968344 creator A5078760383 @default.
• W2769968344 creator A5082836637 @default.
• W2769968344 creator A5088465554 @default.
• W2769968344 date "2018-02-01" @default.
• W2769968344 modified "2023-10-12" @default.
• W2769968344 title "Dynamics of soil microbial biomass and enzyme activities along a chronosequence of desertified land revegetation" @default.
• W2769968344 cites W1606559613 @default.
• W2769968344 cites W1983161763 @default.
• W2769968344 cites W1989129724 @default.
• W2769968344 cites W1993205157 @default.
• W2769968344 cites W1998604844 @default.
• W2769968344 cites W2001685347 @default.
• W2769968344 cites W2009140642 @default.
• W2769968344 cites W2013180884 @default.
• W2769968344 cites W2019706045 @default.
• W2769968344 cites W2022947999 @default.
• W2769968344 cites W2023889836 @default.
• W2769968344 cites W2026329543 @default.
• W2769968344 cites W2033367223 @default.
• W2769968344 cites W2037195872 @default.
• W2769968344 cites W2043296117 @default.
• W2769968344 cites W2056448562 @default.
• W2769968344 cites W2057046990 @default.
• W2769968344 cites W2057864962 @default.
• W2769968344 cites W2059505106 @default.
• W2769968344 cites W2069146791 @default.
• W2769968344 cites W2070134626 @default.
• W2769968344 cites W2084068218 @default.
• W2769968344 cites W2084341465 @default.
• W2769968344 cites W2094098259 @default.
• W2769968344 cites W210021018 @default.
• W2769968344 cites W2116756609 @default.
• W2769968344 cites W2128491155 @default.
• W2769968344 cites W2131760445 @default.
• W2769968344 cites W2156847778 @default.
• W2769968344 cites W2167529308 @default.
• W2769968344 cites W2254981997 @default.
• W2769968344 cites W2384737762 @default.
• W2769968344 doi "https://doi.org/10.1016/j.ecoleng.2017.11.006" @default.
• W2769968344 hasPublicationYear "2018" @default.
• W2769968344 type Work @default.
• W2769968344 sameAs 2769968344 @default.
• W2769968344 citedByCount "57" @default.
• W2769968344 countsByYear W27699683442018 @default.
• W2769968344 countsByYear W27699683442019 @default.
• W2769968344 countsByYear W27699683442020 @default.
• W2769968344 countsByYear W27699683442021 @default.
• W2769968344 countsByYear W27699683442022 @default.
• W2769968344 countsByYear W27699683442023 @default.
• W2769968344 crossrefType "journal-article" @default.
• W2769968344 hasAuthorship W2769968344A5017655580 @default.
• W2769968344 hasAuthorship W2769968344A5027282179 @default.
• W2769968344 hasAuthorship W2769968344A5063922467 @default.
• W2769968344 hasAuthorship W2769968344A5066186077 @default.
• W2769968344 hasAuthorship W2769968344A5077787580 @default.
• W2769968344 hasAuthorship W2769968344A5078760383 @default.
• W2769968344 hasAuthorship W2769968344A5082836637 @default.
• W2769968344 hasAuthorship W2769968344A5088465554 @default.
• W2769968344 hasConcept C115540264 @default.
• W2769968344 hasConcept C159390177 @default.
• W2769968344 hasConcept C159750122 @default.
• W2769968344 hasConcept C185592680 @default.
• W2769968344 hasConcept C18903297 @default.
• W2769968344 hasConcept C2776278397 @default.
• W2769968344 hasConcept C2776475172 @default.
• W2769968344 hasConcept C2778091200 @default.
• W2769968344 hasConcept C2778948613 @default.
• W2769968344 hasConcept C39432304 @default.
• W2769968344 hasConcept C59822182 @default.
• W2769968344 hasConcept C61661205 @default.
• W2769968344 hasConcept C6557445 @default.
• W2769968344 hasConcept C86803240 @default.
• W2769968344 hasConceptScore W2769968344C115540264 @default.
• W2769968344 hasConceptScore W2769968344C159390177 @default.
• W2769968344 hasConceptScore W2769968344C159750122 @default.
• W2769968344 hasConceptScore W2769968344C185592680 @default.
• W2769968344 hasConceptScore W2769968344C18903297 @default.
• W2769968344 hasConceptScore W2769968344C2776278397 @default.
• W2769968344 hasConceptScore W2769968344C2776475172 @default.
• W2769968344 hasConceptScore W2769968344C2778091200 @default.
• W2769968344 hasConceptScore W2769968344C2778948613 @default.
• W2769968344 hasConceptScore W2769968344C39432304 @default.
• W2769968344 hasConceptScore W2769968344C59822182 @default.
• W2769968344 hasConceptScore W2769968344C61661205 @default.
• W2769968344 hasConceptScore W2769968344C6557445 @default.
• W2769968344 hasConceptScore W2769968344C86803240 @default.
• W2769968344 hasFunder F4320321001 @default.
• W2769968344 hasLocation W27699683441 @default.
• W2769968344 hasOpenAccess W2769968344 @default.
• W2769968344 hasPrimaryLocation W27699683441 @default.
• W2769968344 hasRelatedWork W184642027 @default.

• next