FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2969891391> ?p ?o ?g. }

• W2969891391 endingPage "104366" @default.
• W2969891391 startingPage "104366" @default.
• W2969891391 abstract "Abstract The total area of greenhouse crop production is increasing in China. However, this adversely influences soil physical and chemical properties due to special environmental conditions and agricultural management in greenhouse production. In this study, we evaluated soil properties of greenhouse vegetable systems with different planting years, a long-term greenhouse strawberry system, and an open-field wheat-maize rotation system in a typical agricultural production area of North China. The annual fertilizer application rates of nitrogen (N), phosphorus (P), and potassium (K) in the greenhouse vegetable system were 842.15, 809.14, and 931.55 kg ha−1, respectively, which were 3 times more than those in the wheat-maize rotation system and led to great changes of soil properties. Bulk density and soil pH gradually declined with increased cultivation time from new to 15 years in the greenhouse vegetable system. Bulk density declined from 1.58 g/cm3 in the new greenhouse fields to 1.25 g/cm3 in the 15-year greenhouse fields, and pH decreased from 5.72 to 4.55 with a rate of 0.08 unit per year. The contents of soil organic carbon (SOC), soil soluble salts, total NPK, and available NPK rose steadily until the 10th or 11th year, then decreased. By comparison with another two cropping systems, the greenhouse vegetable fields showed the lowest bulk density and pH, but the highest contents of SOC, soil soluble salts, total NPK, and available NPK due to heavy fertilizer inputs. The contents of soil N, P, and K in greenhouse vegetable fields were imbalanced, as indicated by C:N (11.58), C:P (16.06), and N:P (1.71) molar ratios in soils, which were significantly lower than the level in China and the rest of the world. In addition, the C:P and N:P ratios of greenhouse vegetable fields were also lower than those of wheat-maize rotation fields and greenhouse strawberry fields. Regression analysis indicated that the contents of SOC and soluble salts were positively correlated with pH, while available N and P contents showed negative linear relationships. These results demonstrate dramatic adverse changes of soil properties in intensive greenhouse vegetable fields in China. Our results also emphasize the need to regulate appropriate fertilizer application for intensive greenhouse vegetable management." @default.
• W2969891391 created "2019-08-29" @default.
• W2969891391 creator A5024881085 @default.
• W2969891391 creator A5036930570 @default.
• W2969891391 creator A5042515534 @default.
• W2969891391 creator A5085462851 @default.
• W2969891391 creator A5086350933 @default.
• W2969891391 creator A5089319034 @default.
• W2969891391 creator A5089925843 @default.
• W2969891391 date "2019-12-01" @default.
• W2969891391 modified "2023-10-17" @default.
• W2969891391 title "Changes in soil physical and chemical characteristics in intensively cultivated greenhouse vegetable fields in North China" @default.
• W2969891391 cites W1465361827 @default.
• W2969891391 cites W1895337296 @default.
• W2969891391 cites W1924722717 @default.
• W2969891391 cites W1984180115 @default.
• W2969891391 cites W1984601337 @default.
• W2969891391 cites W1985091715 @default.
• W2969891391 cites W1986381488 @default.
• W2969891391 cites W1990029064 @default.
• W2969891391 cites W1997688147 @default.
• W2969891391 cites W1997760983 @default.
• W2969891391 cites W2000298068 @default.
• W2969891391 cites W2014269808 @default.
• W2969891391 cites W2024475216 @default.
• W2969891391 cites W2030587939 @default.
• W2969891391 cites W2041383474 @default.
• W2969891391 cites W2057442295 @default.
• W2969891391 cites W2057978178 @default.
• W2969891391 cites W2065762344 @default.
• W2969891391 cites W2067842168 @default.
• W2969891391 cites W2068324418 @default.
• W2969891391 cites W2072196103 @default.
• W2969891391 cites W2075435443 @default.
• W2969891391 cites W2102648957 @default.
• W2969891391 cites W2110368263 @default.
• W2969891391 cites W2112420184 @default.
• W2969891391 cites W2136669876 @default.
• W2969891391 cites W2150284769 @default.
• W2969891391 cites W2157024597 @default.
• W2969891391 cites W2169047188 @default.
• W2969891391 cites W2169988020 @default.
• W2969891391 cites W2434633751 @default.
• W2969891391 doi "https://doi.org/10.1016/j.still.2019.104366" @default.
• W2969891391 hasPublicationYear "2019" @default.
• W2969891391 type Work @default.
• W2969891391 sameAs 2969891391 @default.
• W2969891391 citedByCount "44" @default.
• W2969891391 countsByYear W29698913912020 @default.
• W2969891391 countsByYear W29698913912021 @default.
• W2969891391 countsByYear W29698913912022 @default.
• W2969891391 countsByYear W29698913912023 @default.
• W2969891391 crossrefType "journal-article" @default.
• W2969891391 hasAuthorship W2969891391A5024881085 @default.
• W2969891391 hasAuthorship W2969891391A5036930570 @default.
• W2969891391 hasAuthorship W2969891391A5042515534 @default.
• W2969891391 hasAuthorship W2969891391A5085462851 @default.
• W2969891391 hasAuthorship W2969891391A5086350933 @default.
• W2969891391 hasAuthorship W2969891391A5089319034 @default.
• W2969891391 hasAuthorship W2969891391A5089925843 @default.
• W2969891391 hasConcept C166957645 @default.
• W2969891391 hasConcept C191935318 @default.
• W2969891391 hasConcept C205649164 @default.
• W2969891391 hasConcept C32198211 @default.
• W2969891391 hasConcept C39432304 @default.
• W2969891391 hasConcept C54286561 @default.
• W2969891391 hasConcept C6557445 @default.
• W2969891391 hasConcept C86803240 @default.
• W2969891391 hasConceptScore W2969891391C166957645 @default.
• W2969891391 hasConceptScore W2969891391C191935318 @default.
• W2969891391 hasConceptScore W2969891391C205649164 @default.
• W2969891391 hasConceptScore W2969891391C32198211 @default.
• W2969891391 hasConceptScore W2969891391C39432304 @default.
• W2969891391 hasConceptScore W2969891391C54286561 @default.
• W2969891391 hasConceptScore W2969891391C6557445 @default.
• W2969891391 hasConceptScore W2969891391C86803240 @default.
• W2969891391 hasFunder F4320321001 @default.
• W2969891391 hasFunder F4320323649 @default.
• W2969891391 hasFunder F4320335777 @default.
• W2969891391 hasLocation W29698913911 @default.
• W2969891391 hasOpenAccess W2969891391 @default.
• W2969891391 hasPrimaryLocation W29698913911 @default.
• W2969891391 hasRelatedWork W115841463 @default.
• W2969891391 hasRelatedWork W1996009896 @default.
• W2969891391 hasRelatedWork W2147552018 @default.
• W2969891391 hasRelatedWork W2359529424 @default.
• W2969891391 hasRelatedWork W2367199394 @default.
• W2969891391 hasRelatedWork W2379818326 @default.
• W2969891391 hasRelatedWork W2394069976 @default.
• W2969891391 hasRelatedWork W3193557279 @default.
• W2969891391 hasRelatedWork W4210381023 @default.
• W2969891391 hasRelatedWork W4220865652 @default.
• W2969891391 hasVolume "195" @default.
• W2969891391 isParatext "false" @default.
• W2969891391 isRetracted "false" @default.
• W2969891391 magId "2969891391" @default.
• W2969891391 workType "article" @default.