FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2022183640> ?p ?o ?g. }

• W2022183640 endingPage "1165" @default.
• W2022183640 startingPage "1141" @default.
• W2022183640 abstract "Abstract A two-year [1999, 2001] study of field pea (Pisum sativum L.) in rotation with small grain was conducted on a Fargo clay soil [fine, smetitic, frigid, Typic Epiaquert] to determine the influence of tillage system [fall PLOW, fall CHISEL PLOW, fall DISK, and NOTILL] and spring applied nitrogen fertilizer rates [0, 45, 90, and 135 kg ha−1] on dry matter production at three growth stages, and nitrogen–phosphorus–potassium [NPK] concentration and uptake. Plants were sampled at first flower [code 203] after 870 GDD and maximum dry matter production [code 208] after 1364 GDD. Seed was harvested for yield [code 303] after 1692 GDD. Dry matter production at flower stage 203 averaged 2400 kg ha−1 the first year and 1960 kg ha−1 the second year with the PLOW system producing the lowest dry matter in both years. Applications of nitrogen fertilizer at the high rate increased dry matter from 500 to 700 kg ha−1. Dry matter at stage 208 in 2001 ranged from 4260 kg ha−1 without fertilizer nitrogen applied, to 6360 kg ha−1 with 135 kg ha−1 of nitrogen fertilizer applied. In contrast to the earlier stage, the PLOW system produced the greatest total dry matter production at stage 208. Minimum pea seed yield, stage 303, averaged 2740 and 2410 kg ha−1 without any nitrogen fertilizer applied in 1999 and 2001. Maximum seed yields at harvest [3530 kg ha−1 in 1999 and 3140 kg ha−1 in 2001] were obtained only when 135 kg ha−1 nitrogen fertilizer was applied. Average seed yields were not always significantly different between tillage systems, but the CHISEL PLOW and DISK were consistently higher than PLOW or NOTILL at all nitrogen fertilizer rates. This research provided estimates of the amount of NPK nutrients required to maximize field pea production under various tillage systems and nitrogen fertilizer rates at various growth stages. When averaged across years, nitrogen fertilizer rates, and tillage systems, concentrations of N, P, and K were measured at 3.0, 0.30, and 2.6% at stage 203, with 2.4, 0.23, and 1.5% at stage 208 and finally the seed [stage 303] at 3.4, 0.38 and 1.2%. The pea plant required 0.031 kg N, 0.0032 kg P, and 0.027 kg K for each kilogram of plant dry matter produced by flowering stage 203. By stage 208 when the pea plant has reached maximum dry matter production, the nutrient requirement was 0.023 kg N, 0.0025 kg P, and 0.0162 kg K to produce 1 kg of plant material. By harvest, stage 303, the nutrients removed by the seed were 0.034 kg N, 0.0041 kg P, and 0.0115 kg K for each kilogram of seed produced. This study indicated that adequate nitrogen (derived from the soil, through N fixation or applied as fertilizer) was equally if not more important than tillage system and this management practice must be included in the overall plan for maxim field pea production in the Northern Great Plains." @default.
• W2022183640 created "2016-06-24" @default.
• W2022183640 creator A5000861429 @default.
• W2022183640 creator A5054922392 @default.
• W2022183640 date "2004-12-31" @default.
• W2022183640 modified "2023-09-27" @default.
• W2022183640 title "Field Pea Growth and Nutrient Uptake: Response to Tillage Systems and Nitrogen Fertilizer Applications" @default.
• W2022183640 cites W1965656296 @default.
• W2022183640 cites W1967111788 @default.
• W2022183640 cites W1976329459 @default.
• W2022183640 cites W1978153586 @default.
• W2022183640 cites W1990206295 @default.
• W2022183640 cites W2001992780 @default.
• W2022183640 cites W2007084960 @default.
• W2022183640 cites W2007602439 @default.
• W2022183640 cites W2012371015 @default.
• W2022183640 cites W2014465655 @default.
• W2022183640 cites W2016222143 @default.
• W2022183640 cites W2016595099 @default.
• W2022183640 cites W2020832289 @default.
• W2022183640 cites W2034505253 @default.
• W2022183640 cites W2037124274 @default.
• W2022183640 cites W2054015870 @default.
• W2022183640 cites W2063968289 @default.
• W2022183640 cites W2087835560 @default.
• W2022183640 cites W2112800291 @default.
• W2022183640 cites W2152262273 @default.
• W2022183640 cites W2201688320 @default.
• W2022183640 cites W2327111210 @default.
• W2022183640 doi "https://doi.org/10.1081/css-120030595" @default.
• W2022183640 hasPublicationYear "2004" @default.
• W2022183640 type Work @default.
• W2022183640 sameAs 2022183640 @default.
• W2022183640 citedByCount "11" @default.
• W2022183640 countsByYear W20221836402012 @default.
• W2022183640 countsByYear W20221836402014 @default.
• W2022183640 countsByYear W20221836402017 @default.
• W2022183640 countsByYear W20221836402018 @default.
• W2022183640 countsByYear W20221836402020 @default.
• W2022183640 countsByYear W20221836402022 @default.
• W2022183640 crossrefType "journal-article" @default.
• W2022183640 hasAuthorship W2022183640A5000861429 @default.
• W2022183640 hasAuthorship W2022183640A5054922392 @default.
• W2022183640 hasConcept C140793950 @default.
• W2022183640 hasConcept C16397148 @default.
• W2022183640 hasConcept C178790620 @default.
• W2022183640 hasConcept C180429540 @default.
• W2022183640 hasConcept C185592680 @default.
• W2022183640 hasConcept C2775997218 @default.
• W2022183640 hasConcept C2777638260 @default.
• W2022183640 hasConcept C2780138947 @default.
• W2022183640 hasConcept C2780560099 @default.
• W2022183640 hasConcept C510538283 @default.
• W2022183640 hasConcept C537208039 @default.
• W2022183640 hasConcept C6557445 @default.
• W2022183640 hasConcept C86803240 @default.
• W2022183640 hasConceptScore W2022183640C140793950 @default.
• W2022183640 hasConceptScore W2022183640C16397148 @default.
• W2022183640 hasConceptScore W2022183640C178790620 @default.
• W2022183640 hasConceptScore W2022183640C180429540 @default.
• W2022183640 hasConceptScore W2022183640C185592680 @default.
• W2022183640 hasConceptScore W2022183640C2775997218 @default.
• W2022183640 hasConceptScore W2022183640C2777638260 @default.
• W2022183640 hasConceptScore W2022183640C2780138947 @default.
• W2022183640 hasConceptScore W2022183640C2780560099 @default.
• W2022183640 hasConceptScore W2022183640C510538283 @default.
• W2022183640 hasConceptScore W2022183640C537208039 @default.
• W2022183640 hasConceptScore W2022183640C6557445 @default.
• W2022183640 hasConceptScore W2022183640C86803240 @default.
• W2022183640 hasIssue "7-8" @default.
• W2022183640 hasLocation W20221836401 @default.
• W2022183640 hasOpenAccess W2022183640 @default.
• W2022183640 hasPrimaryLocation W20221836401 @default.
• W2022183640 hasRelatedWork W1978885363 @default.
• W2022183640 hasRelatedWork W1985506127 @default.
• W2022183640 hasRelatedWork W2012278023 @default.
• W2022183640 hasRelatedWork W2014465655 @default.
• W2022183640 hasRelatedWork W2106225410 @default.
• W2022183640 hasRelatedWork W2245643846 @default.
• W2022183640 hasRelatedWork W2355894558 @default.
• W2022183640 hasRelatedWork W2383487745 @default.
• W2022183640 hasRelatedWork W2571451183 @default.
• W2022183640 hasRelatedWork W3096715085 @default.
• W2022183640 hasVolume "35" @default.
• W2022183640 isParatext "false" @default.
• W2022183640 isRetracted "false" @default.
• W2022183640 magId "2022183640" @default.
• W2022183640 workType "article" @default.