FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1938541206> ?p ?o ?g. }

• W1938541206 endingPage "448" @default.
• W1938541206 startingPage "439" @default.
• W1938541206 abstract "Zou, W., Si, B., Han, X. and Jiang, H. 2012. The effect of long-term fertilization on soil water storage and water deficit in the Black Soil Zone in northeast China. Can. J. Soil Sci. 92: 439–448. The Black Soil Zone in northeast China is one of the most important areas of agricultural production in China and plays a crucial role in food supply. However, further improvement in crop yield hinges on effective management of soil water. There is a poor understanding of how different fertilization methods affect crop water use efficiency. The objective of this study was to examine the effect of different fertilization methods on soil water storage and deficit in Black soils. A long-term experiment was conducted at the National Field Research Station of Agro-ecosystems, at Hailun County, Heilongjiang province in northeastern China from 1999 to 2008. Three fertilizer treatments including no fertilizer (CK), inorganic fertilizer (NP) and inorganic fertilizer plus organic material (NPM) were tested. The results showed that soil water storage decreased in the order CK, NP, and NPM during the growing season and the differences in soil water storage in the active root zone (0–70 cm) and below the active root zone (70–130 cm) and soil water deficit were statistically significant among the three treatments. Due to the uneven temporal distribution of rainfall and crop water uptake, soil water content was very dynamic in all three treatments: The low soil water storage and resulting soil water deficit (defined as the monthly difference between potential evapotranspiration and soil available water storage) within the 0- to 70-cm soil profile were found in both June and July. Further, soil receiving NPM was more likely to have a soil water deficit, but less likely to have excessive water. A lower risk of excess water may result in deeper root penetration and increased water use at greater depth, and thus the water deficit under the NPM treatment may not be the limiting factor for crop production. Therefore, NPM seems a viable management practice for improving crop yields in the Black Soil Zone in northeast China, possibly due to higher soil organic carbon and nutrient supply and lower probability of excess water." @default.
• W1938541206 created "2016-06-24" @default.
• W1938541206 creator A5002513192 @default.
• W1938541206 creator A5017768657 @default.
• W1938541206 creator A5039771089 @default.
• W1938541206 creator A5065211559 @default.
• W1938541206 date "2012-03-01" @default.
• W1938541206 modified "2023-09-29" @default.
• W1938541206 title "The effect of long-term fertilization on soil water storage and water deficit in the Black Soil Zone in northeast China" @default.
• W1938541206 cites W1585902779 @default.
• W1938541206 cites W1895873456 @default.
• W1938541206 cites W1972932649 @default.
• W1938541206 cites W1998804865 @default.
• W1938541206 cites W2008470172 @default.
• W1938541206 cites W2009032807 @default.
• W1938541206 cites W2030525821 @default.
• W1938541206 cites W2032017342 @default.
• W1938541206 cites W2034294968 @default.
• W1938541206 cites W2040011759 @default.
• W1938541206 cites W2051109679 @default.
• W1938541206 cites W2056401504 @default.
• W1938541206 cites W2060615563 @default.
• W1938541206 cites W2061213910 @default.
• W1938541206 cites W2075722910 @default.
• W1938541206 cites W2079117742 @default.
• W1938541206 cites W2080554333 @default.
• W1938541206 cites W2084638297 @default.
• W1938541206 cites W2088628729 @default.
• W1938541206 cites W2088844190 @default.
• W1938541206 cites W2111997852 @default.
• W1938541206 cites W2115771741 @default.
• W1938541206 cites W2117647891 @default.
• W1938541206 doi "https://doi.org/10.4141/cjss2010-050" @default.
• W1938541206 hasPublicationYear "2012" @default.
• W1938541206 type Work @default.
• W1938541206 sameAs 1938541206 @default.
• W1938541206 citedByCount "5" @default.
• W1938541206 countsByYear W19385412062014 @default.
• W1938541206 countsByYear W19385412062019 @default.
• W1938541206 countsByYear W19385412062020 @default.
• W1938541206 countsByYear W19385412062021 @default.
• W1938541206 crossrefType "journal-article" @default.
• W1938541206 hasAuthorship W1938541206A5002513192 @default.
• W1938541206 hasAuthorship W1938541206A5017768657 @default.
• W1938541206 hasAuthorship W1938541206A5039771089 @default.
• W1938541206 hasAuthorship W1938541206A5065211559 @default.
• W1938541206 hasBestOaLocation W19385412061 @default.
• W1938541206 hasConcept C114793014 @default.
• W1938541206 hasConcept C127313418 @default.
• W1938541206 hasConcept C159390177 @default.
• W1938541206 hasConcept C159750122 @default.
• W1938541206 hasConcept C176783924 @default.
• W1938541206 hasConcept C18903297 @default.
• W1938541206 hasConcept C201289731 @default.
• W1938541206 hasConcept C2776182401 @default.
• W1938541206 hasConcept C2780560099 @default.
• W1938541206 hasConcept C38774213 @default.
• W1938541206 hasConcept C39432304 @default.
• W1938541206 hasConcept C6557445 @default.
• W1938541206 hasConcept C86803240 @default.
• W1938541206 hasConcept C88972607 @default.
• W1938541206 hasConceptScore W1938541206C114793014 @default.
• W1938541206 hasConceptScore W1938541206C127313418 @default.
• W1938541206 hasConceptScore W1938541206C159390177 @default.
• W1938541206 hasConceptScore W1938541206C159750122 @default.
• W1938541206 hasConceptScore W1938541206C176783924 @default.
• W1938541206 hasConceptScore W1938541206C18903297 @default.
• W1938541206 hasConceptScore W1938541206C201289731 @default.
• W1938541206 hasConceptScore W1938541206C2776182401 @default.
• W1938541206 hasConceptScore W1938541206C2780560099 @default.
• W1938541206 hasConceptScore W1938541206C38774213 @default.
• W1938541206 hasConceptScore W1938541206C39432304 @default.
• W1938541206 hasConceptScore W1938541206C6557445 @default.
• W1938541206 hasConceptScore W1938541206C86803240 @default.
• W1938541206 hasConceptScore W1938541206C88972607 @default.
• W1938541206 hasIssue "3" @default.
• W1938541206 hasLocation W19385412061 @default.
• W1938541206 hasOpenAccess W1938541206 @default.
• W1938541206 hasPrimaryLocation W19385412061 @default.
• W1938541206 hasRelatedWork W2081440331 @default.
• W1938541206 hasRelatedWork W2350875652 @default.
• W1938541206 hasRelatedWork W2359151520 @default.
• W1938541206 hasRelatedWork W2361156827 @default.
• W1938541206 hasRelatedWork W2378824265 @default.
• W1938541206 hasRelatedWork W2381748785 @default.
• W1938541206 hasRelatedWork W2393789120 @default.
• W1938541206 hasRelatedWork W2914010866 @default.
• W1938541206 hasRelatedWork W2977652098 @default.
• W1938541206 hasRelatedWork W3148985899 @default.
• W1938541206 hasVolume "92" @default.
• W1938541206 isParatext "false" @default.
• W1938541206 isRetracted "false" @default.
• W1938541206 magId "1938541206" @default.
• W1938541206 workType "article" @default.