SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2006263107> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2006263107 endingPage "19" @default.
W2006263107 startingPage "1" @default.
W2006263107 abstract "When silage is exposed to air on opening the silo, or after its removal from the silo, fermentation acids and other substrates are oxidized by aerobic bacteria, yeasts and moulds. The aerobic stability of silage is a key factor in ensuring that silage provides well-preserved nutrients to the animal with minimal amounts of mould spores and toxins. In this paper, key findings and recent developments are reviewed, and findings of recent research are integrated in terms of four themes: (i) the most significant biochemical and microbiological factors, (ii) physical and management factors, (iii) type of additive and (iv) silo sealing. The development of yeasts and moulds during plant growth, and during field wilting or storage, and the concentration of undissociated acetic acid in silage are important microbiological and biochemical factors affecting aerobic stability. Silage density and porosity are key physical factors that affect the rate of ingress of oxygen into the silage mass during the feed-out period. A target for potential silage aerobic stability is 7 d including time in the feed trough. To achieve this target, speed of harvest should be coordinated with packing tractor weight to achieve a minimum silage density by the time of feed-out of 210 kg DM m−3, maximum proportional porosity of 0·4 and a rate of silage removal, which matches or exceeds the depth of air penetration into the silo. The use of additives to increase aerobic stability is advisable when there is the risk of these objectives not being met. Novel microbial approaches to solving the problem of silage aerobic deterioration are needed." @default.
W2006263107 created "2016-06-24" @default.
W2006263107 creator A5003934650 @default.
W2006263107 creator A5026728421 @default.
W2006263107 date "2012-06-22" @default.
W2006263107 modified "2023-10-17" @default.
W2006263107 title "The aerobic stability of silage: key findings and recent developments" @default.
W2006263107 cites W1524462753 @default.
W2006263107 cites W1604507001 @default.
W2006263107 cites W1925361835 @default.
W2006263107 cites W1972181242 @default.
W2006263107 cites W1977098416 @default.
W2006263107 cites W1983319642 @default.
W2006263107 cites W1986093227 @default.
W2006263107 cites W1986695305 @default.
W2006263107 cites W1987100560 @default.
W2006263107 cites W1988106132 @default.
W2006263107 cites W1988322995 @default.
W2006263107 cites W1997383631 @default.
W2006263107 cites W1997813919 @default.
W2006263107 cites W2000023992 @default.
W2006263107 cites W2003553635 @default.
W2006263107 cites W2005826626 @default.
W2006263107 cites W2008687139 @default.
W2006263107 cites W2009479387 @default.
W2006263107 cites W2013279065 @default.
W2006263107 cites W2013470613 @default.
W2006263107 cites W2027126995 @default.
W2006263107 cites W2031487666 @default.
W2006263107 cites W2032734202 @default.
W2006263107 cites W2034661393 @default.
W2006263107 cites W2038448844 @default.
W2006263107 cites W2047532881 @default.
W2006263107 cites W2048035449 @default.
W2006263107 cites W2051294100 @default.
W2006263107 cites W2057659660 @default.
W2006263107 cites W2058001874 @default.
W2006263107 cites W2059271310 @default.
W2006263107 cites W2060019547 @default.
W2006263107 cites W2061566556 @default.
W2006263107 cites W2061713013 @default.
W2006263107 cites W2071990394 @default.
W2006263107 cites W2073244606 @default.
W2006263107 cites W2075388614 @default.
W2006263107 cites W2078025912 @default.
W2006263107 cites W2080289882 @default.
W2006263107 cites W2086757705 @default.
W2006263107 cites W2087833075 @default.
W2006263107 cites W2091357157 @default.
W2006263107 cites W2092544287 @default.
W2006263107 cites W2097645323 @default.
W2006263107 cites W2100796755 @default.
W2006263107 cites W2101430094 @default.
W2006263107 cites W2101929749 @default.
W2006263107 cites W2104025557 @default.
W2006263107 cites W2108610499 @default.
W2006263107 cites W2110743622 @default.
W2006263107 cites W2114043401 @default.
W2006263107 cites W2114551023 @default.
W2006263107 cites W2116246903 @default.
W2006263107 cites W2117177457 @default.
W2006263107 cites W2117426089 @default.
W2006263107 cites W2130382414 @default.
W2006263107 cites W2141161123 @default.
W2006263107 cites W2141257503 @default.
W2006263107 cites W2141731307 @default.
W2006263107 cites W2148333466 @default.
W2006263107 cites W2149813532 @default.
W2006263107 cites W2153834527 @default.
W2006263107 cites W2158721137 @default.
W2006263107 cites W2160270592 @default.
W2006263107 cites W2997753203 @default.
W2006263107 cites W4249979468 @default.
W2006263107 cites W598038682 @default.
W2006263107 doi "https://doi.org/10.1111/j.1365-2494.2012.00891.x" @default.
W2006263107 hasPublicationYear "2012" @default.
W2006263107 type Work @default.
W2006263107 sameAs 2006263107 @default.
W2006263107 citedByCount "288" @default.
W2006263107 countsByYear W20062631072013 @default.
W2006263107 countsByYear W20062631072014 @default.
W2006263107 countsByYear W20062631072015 @default.
W2006263107 countsByYear W20062631072016 @default.
W2006263107 countsByYear W20062631072017 @default.
W2006263107 countsByYear W20062631072018 @default.
W2006263107 countsByYear W20062631072019 @default.
W2006263107 countsByYear W20062631072020 @default.
W2006263107 countsByYear W20062631072021 @default.
W2006263107 countsByYear W20062631072022 @default.
W2006263107 countsByYear W20062631072023 @default.
W2006263107 crossrefType "journal-article" @default.
W2006263107 hasAuthorship W2006263107A5003934650 @default.
W2006263107 hasAuthorship W2006263107A5026728421 @default.
W2006263107 hasConcept C100544194 @default.
W2006263107 hasConcept C140793950 @default.
W2006263107 hasConcept C185592680 @default.
W2006263107 hasConcept C2776544680 @default.
W2006263107 hasConcept C2778024958 @default.