SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3080783921> ?p ?o ?g. }

Showing items 1 to 100 of ±116 with 100 items per page.

W3080783921 endingPage "s437" @default.
W3080783921 startingPage "s427" @default.
W3080783921 abstract "The production of beef cattle in the Atlantic Forest biome mostly takes place in pastoral production systems. There are millions of hectares covered with pastures in this biome, including degraded pasture (DP), and only small area of the original Atlantic Forest has been preserved in tropics, implying that actions must be taken by the livestock sector to improve sustainability. Intensification makes it possible to produce the same amount, or more beef, in a smaller area; however, the environmental impacts must be assessed. Regarding climate change, the C dynamics is essential to define which beef cattle systems are sustainable. The objectives of this study were to investigate the C balance (t CO2e./ha per year), the intensity of C emission (kg CO2e./kg BW or carcass) and the C footprint (t CO2e./ha per year) of pasture-based beef cattle production systems, inside the farm gate and considering the inputs. The results were used to calculate the number of trees to be planted in beef cattle production systems to mitigate greenhouse gas (GHG) emissions. The GHG emission and C balance, for 2 years, were calculated based on the global warming potential (GWP) of AR4 and GWP of AR5. Forty-eight steers were allotted to four grazing systems: DP, irrigated high stocking rate pasture (IHS), rainfed high stocking rate pasture (RHS) and rainfed medium stocking rate pasture (RMS). The rainfed systems (RHS and RMS) presented the lowest C footprints (−1.22 and 0.45 t CO2e./ha per year, respectively), with C credits to RMS when using the GWP of AR4. The IHS system showed less favorable results for C footprint (−15.71 t CO2e./ha per year), but results were better when emissions were expressed in relation to the annual BW gain (−10.21 kg CO2e./kg BW) because of its higher yield. Although the DP system had an intermediate result for C footprint (−6.23 t CO2e./ha per year), the result was the worst (−30.21 CO2e./kg BW) when the index was expressed in relation to the annual BW gain, because in addition to GHG emissions from the animals in the system there were also losses in the annual rate of C sequestration. Notably, the intensification in pasture management had a land-saving effect (3.63 ha for IHS, 1.90 for RHS and 1.19 for RMS), contributing to the preservation of the tropical forest." @default.
W3080783921 created "2020-09-01" @default.
W3080783921 creator A5013168859 @default.
W3080783921 creator A5015418871 @default.
W3080783921 creator A5057012197 @default.
W3080783921 creator A5065859788 @default.
W3080783921 creator A5071531528 @default.
W3080783921 creator A5078437674 @default.
W3080783921 creator A5084725932 @default.
W3080783921 creator A5087513712 @default.
W3080783921 date "2020-01-01" @default.
W3080783921 modified "2023-10-16" @default.
W3080783921 title "Greenhouse gas balance and carbon footprint of pasture-based beef cattle production systems in the tropical region (Atlantic Forest biome)" @default.
W3080783921 cites W1771355534 @default.
W3080783921 cites W1837026033 @default.
W3080783921 cites W1980578650 @default.
W3080783921 cites W1991760382 @default.
W3080783921 cites W1995967966 @default.
W3080783921 cites W2000509582 @default.
W3080783921 cites W2012942434 @default.
W3080783921 cites W2015262491 @default.
W3080783921 cites W2053509769 @default.
W3080783921 cites W2083974510 @default.
W3080783921 cites W2085393959 @default.
W3080783921 cites W2106112224 @default.
W3080783921 cites W2116409775 @default.
W3080783921 cites W2132892608 @default.
W3080783921 cites W2141742848 @default.
W3080783921 cites W2144625545 @default.
W3080783921 cites W2149662505 @default.
W3080783921 cites W2313088654 @default.
W3080783921 cites W2503017821 @default.
W3080783921 cites W2790024316 @default.
W3080783921 cites W2792041063 @default.
W3080783921 cites W2896540285 @default.
W3080783921 cites W2897318416 @default.
W3080783921 cites W2982857149 @default.
W3080783921 doi "https://doi.org/10.1017/s1751731120001822" @default.
W3080783921 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32829724" @default.
W3080783921 hasPublicationYear "2020" @default.
W3080783921 type Work @default.
W3080783921 sameAs 3080783921 @default.
W3080783921 citedByCount "15" @default.
W3080783921 countsByYear W30807839212020 @default.
W3080783921 countsByYear W30807839212021 @default.
W3080783921 countsByYear W30807839212022 @default.
W3080783921 countsByYear W30807839212023 @default.
W3080783921 crossrefType "journal-article" @default.
W3080783921 hasAuthorship W3080783921A5013168859 @default.
W3080783921 hasAuthorship W3080783921A5015418871 @default.
W3080783921 hasAuthorship W3080783921A5057012197 @default.
W3080783921 hasAuthorship W3080783921A5065859788 @default.
W3080783921 hasAuthorship W3080783921A5071531528 @default.
W3080783921 hasAuthorship W3080783921A5078437674 @default.
W3080783921 hasAuthorship W3080783921A5084725932 @default.
W3080783921 hasAuthorship W3080783921A5087513712 @default.
W3080783921 hasBestOaLocation W30807839211 @default.
W3080783921 hasConcept C110872660 @default.
W3080783921 hasConcept C112964050 @default.
W3080783921 hasConcept C118518473 @default.
W3080783921 hasConcept C153279818 @default.
W3080783921 hasConcept C18903297 @default.
W3080783921 hasConcept C202050865 @default.
W3080783921 hasConcept C205649164 @default.
W3080783921 hasConcept C2777904157 @default.
W3080783921 hasConcept C2778053677 @default.
W3080783921 hasConcept C2780505807 @default.
W3080783921 hasConcept C2780936489 @default.
W3080783921 hasConcept C39432304 @default.
W3080783921 hasConcept C47737302 @default.
W3080783921 hasConcept C50660011 @default.
W3080783921 hasConcept C54286561 @default.
W3080783921 hasConcept C6557445 @default.
W3080783921 hasConcept C86803240 @default.
W3080783921 hasConcept C89920630 @default.
W3080783921 hasConcept C97137747 @default.
W3080783921 hasConceptScore W3080783921C110872660 @default.
W3080783921 hasConceptScore W3080783921C112964050 @default.
W3080783921 hasConceptScore W3080783921C118518473 @default.
W3080783921 hasConceptScore W3080783921C153279818 @default.
W3080783921 hasConceptScore W3080783921C18903297 @default.
W3080783921 hasConceptScore W3080783921C202050865 @default.
W3080783921 hasConceptScore W3080783921C205649164 @default.
W3080783921 hasConceptScore W3080783921C2777904157 @default.
W3080783921 hasConceptScore W3080783921C2778053677 @default.
W3080783921 hasConceptScore W3080783921C2780505807 @default.
W3080783921 hasConceptScore W3080783921C2780936489 @default.
W3080783921 hasConceptScore W3080783921C39432304 @default.
W3080783921 hasConceptScore W3080783921C47737302 @default.
W3080783921 hasConceptScore W3080783921C50660011 @default.
W3080783921 hasConceptScore W3080783921C54286561 @default.
W3080783921 hasConceptScore W3080783921C6557445 @default.
W3080783921 hasConceptScore W3080783921C86803240 @default.
W3080783921 hasConceptScore W3080783921C89920630 @default.
W3080783921 hasConceptScore W3080783921C97137747 @default.
W3080783921 hasLocation W30807839211 @default.
W3080783921 hasLocation W30807839212 @default.
W3080783921 hasOpenAccess W3080783921 @default.