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• W1489733483 abstract "Forage halophytes such as saltbush (Atriplex spp) are being widely used to revegetate Australian saline land and can also provide a medium quality fodder source. There is widespread anecdotal evidence that sheep grazing on saltbush are leaner, tastier and juicer. This thesis investigated the potential to produce a high quality carcass with improved eating quality from grazing sheep on saltbush on saline land.The first experimental chapter in this thesis details an animal house experiment investigating the carcass, eating and wool quality and physiological responses of sheep ingesting a 60:40 dried saltbush (Atriplex nummularia):barley grain (S+B), ration verses a 33:25:42 lupin grain:barley grain:oaten hay ration (Control, C) for 10 weeks prior to commercial slaughter (Chapter 4). Subsequently, two field experiments were conducted to examine the effects of grazing saltbush on saline land compared to dry senesced pasture on carcass and eating quality of lambs (Goomalling 2003) and hoggets (Wickepin 2004) (both chapter 6) for 14 weeks. Both chapters demonstrated that the ingestion of saltbush resulted in significantly less fat and in the 2 field experiments the ingestion of saltbush resulted in more lean on the carcass compared to sheep grazing a stubble/pasture (control) ration. These are positive findings for processors as costs of fat denudation are high so the lower the fat content and for farmers because less fat is deposited on the carcass per unit of liveweight gain. The decreased deposition of fat was attributed to the higher protein:energy ratio available for production, secondary compounds in saltbush and lower circulating insulin and higher growth hormone of the S+B fed sheep compared to the control fed sheep. Further work is needed to determine if these beneficial improvements in carcass composition can be achieved without compromising animal production. The long term grazing of saltbush did not result in commercially desirable hot carcass weights unless the sheep were supplemented with a high energy source such as barley. The low growth rates are attributed to a decreased availability of energy substrates, low feed intake and increased energy output of sheep fed high salt diets. The low energy intake of the S+B fed sheep also resulted in an a significantly lower percentage of unsaturated fat and unchanged levels of saturated fat in the fat depots compared to the C treatment.Consumer taste tests conducted on meat from experiments in both chapter 4 and 6 indicated no difference between the treatments for any of the eating quality traits assessed. This can be considered a positive result as sheep can be finished on saltbush without any detriment to eating quality. High vitamin E levels in the meat may have also prevented the development of rancid flavours and aroma. It can be speculated that saltbush does not impart beneficial flavour and aroma volatiles as previously thought; instead the high vitamin E levels inhibit off-flavour and aroma development compared to meat from sheep grazed on dry pasture.The long term ingestion of saltbush also resulted in significantly lower urine specific gravity (USG), muscle dry matter and higher urine weights suggesting that the saltbush fed sheep had a better hydration status compared to control fed sheep. However, this finding did not correspond with higher hot carcass weight or dressing percentages. The increases in muscle fluid content of the saltbush fed sheep were attributed to changes in body composition. The saltbush fed sheep had a higher lean and lower fat content which corresponded with a greater body fluid content as found in the animal house study.Under conditions where the body composition of sheep remains the same, the use of short term strategic feeding of components of saltbush was investigated (mimicked in the form of salt and betaine) to reduce dehydration and subsequent reductions in carcass weight and dressing percentages (Chapter 7). Salt and or betaine were fed for 1 week either prior to a 48 h period of water deprivation or prior to 48 h commercial slaughter process where water was available in lairage from 24-48 h. Under both scenarios the diets did not result in improved dressing percentages, hot carcass weights, muscle dry matter or muscle weights. The ingestion of high salt diet prior to slaughter, did increase fluid retention in the extracellular spaces prior to slaughter however by 48 h both groups were at a similar physiological and therefore similar hydration status. Therefore similar levels of fluid were present in the muscles and no difference in carcass weight or dressing percentage could be expected. An important observation from the second experiment was that the high salt group drunk more water than the low salt fed sheep but the low salt group consumed fluid in lairage also. The low salt fed sheep may have been encouraged to drink water after observing the frequent drinking patterns of the high salt group.This thesis has also shown that saltbush contains high levels of vitamin E (alpha-tocopherol) (193 mg/kg dry matter). As a result the concentration of alpha-tocopherol in plasma, liver and muscle of the saltbush fed sheep was elevated compared to those grazing dry pasture. The high muscle concentrations of vitamin E in the saltbush-grazed sheep resulted in improved meat colour stability. The high vitamin E levels did not influence the drip and cooking loss of the meat despite a decrease in the muscle dry matter of the meat. The browning of meat and increased drip loss results in large losses to the meat industry due to value deterioration at the supermarket. There is also great potential for the high vitamin E content in saltbush to be used for the prevention of nutritional myopathy instead of using expensive and labour intensive synthetic supplements.In conclusion, this thesis has provided an insight into the carcass and eating quality of sheep grazed on saltbush based saline pasture systems. The most significant findings were that ingesting saltbush can reduce the carcass fat content, improve meat colour stability and not result in any detriment to eating quality. A potentially useful way to incorporate these results into an Australian farming system may be to use saltbush on a short term basis, not for the length of period grazed in this thesis. The short term use of saltbush should provide sufficient grazing time for an elevation of vitamin E levels in the muscle to improve meat colour stability, increase the amount of lean and decrease fat levels of a carcass all without changing eating quality and decreasing liveweight. Further work is needed to ensure that these benefits can be achieved without compromising animal production. The opportunity to utilise saltbush to produce leaner carcasses with better colour stability may encourage farmers to consider previously unproductive land planted to saltbush to be a highly useful enterprise." @default.
• W1489733483 created "2016-06-24" @default.
• W1489733483 creator A5028550538 @default.
• W1489733483 date "2006-01-01" @default.
• W1489733483 modified "2023-09-23" @default.
• W1489733483 title "Carcass and eating quality of sheep grazing saltbush based saline pasture systems" @default.
• W1489733483 cites W107896962 @default.
• W1489733483 cites W1500472489 @default.
• W1489733483 cites W1521596432 @default.
• W1489733483 cites W1524398290 @default.
• W1489733483 cites W1525954151 @default.
• W1489733483 cites W1529983368 @default.
• W1489733483 cites W1530882058 @default.
• W1489733483 cites W1532080041 @default.
• W1489733483 cites W1532493005 @default.
• W1489733483 cites W157304986 @default.
• W1489733483 cites W1583327202 @default.
• W1489733483 cites W1598180014 @default.
• W1489733483 cites W178572914 @default.
• W1489733483 cites W182695108 @default.
• W1489733483 cites W183526116 @default.
• W1489733483 cites W1837026033 @default.
• W1489733483 cites W1862931459 @default.
• W1489733483 cites W1891698441 @default.
• W1489733483 cites W1891936209 @default.
• W1489733483 cites W1892746589 @default.
• W1489733483 cites W1953702613 @default.
• W1489733483 cites W1965633914 @default.
• W1489733483 cites W1967092960 @default.
• W1489733483 cites W1968884864 @default.
• W1489733483 cites W197112831 @default.
• W1489733483 cites W1972327536 @default.
• W1489733483 cites W1974760606 @default.
• W1489733483 cites W1975241932 @default.
• W1489733483 cites W1976300317 @default.
• W1489733483 cites W1976493019 @default.
• W1489733483 cites W1976679932 @default.
• W1489733483 cites W1976822040 @default.
• W1489733483 cites W1977688854 @default.
• W1489733483 cites W1978301538 @default.
• W1489733483 cites W1979252740 @default.
• W1489733483 cites W1979975600 @default.
• W1489733483 cites W1981862084 @default.
• W1489733483 cites W1983430574 @default.
• W1489733483 cites W1986441036 @default.
• W1489733483 cites W1987037507 @default.
• W1489733483 cites W1987795120 @default.
• W1489733483 cites W1988159771 @default.
• W1489733483 cites W1988240205 @default.
• W1489733483 cites W1989400367 @default.
• W1489733483 cites W1990870404 @default.
• W1489733483 cites W1991303436 @default.
• W1489733483 cites W1991312907 @default.
• W1489733483 cites W1992710562 @default.
• W1489733483 cites W1993880837 @default.
• W1489733483 cites W1994105960 @default.
• W1489733483 cites W1995073601 @default.
• W1489733483 cites W1995657959 @default.
• W1489733483 cites W2000232895 @default.
• W1489733483 cites W2000372837 @default.
• W1489733483 cites W2000980067 @default.
• W1489733483 cites W2001222372 @default.
• W1489733483 cites W2001941537 @default.
• W1489733483 cites W2006841711 @default.
• W1489733483 cites W2008835595 @default.
• W1489733483 cites W2008909588 @default.
• W1489733483 cites W2009675461 @default.
• W1489733483 cites W2011361503 @default.
• W1489733483 cites W2011688506 @default.
• W1489733483 cites W2013646433 @default.
• W1489733483 cites W2014808943 @default.
• W1489733483 cites W2015377348 @default.
• W1489733483 cites W2017237220 @default.
• W1489733483 cites W2018553669 @default.
• W1489733483 cites W2019830434 @default.
• W1489733483 cites W2021354984 @default.
• W1489733483 cites W202754535 @default.
• W1489733483 cites W2028073154 @default.
• W1489733483 cites W2029184572 @default.
• W1489733483 cites W2029357490 @default.
• W1489733483 cites W2030682255 @default.
• W1489733483 cites W2034724604 @default.
• W1489733483 cites W2034977404 @default.
• W1489733483 cites W2035498110 @default.
• W1489733483 cites W2038423122 @default.
• W1489733483 cites W2039295438 @default.
• W1489733483 cites W2039502777 @default.
• W1489733483 cites W2040305277 @default.
• W1489733483 cites W2040850202 @default.
• W1489733483 cites W2041714152 @default.
• W1489733483 cites W2041886701 @default.
• W1489733483 cites W2042118630 @default.
• W1489733483 cites W2044586056 @default.
• W1489733483 cites W2045564739 @default.
• W1489733483 cites W2047672905 @default.
• W1489733483 cites W2047922146 @default.
• W1489733483 cites W2048240679 @default.
• W1489733483 cites W2048493305 @default.
• W1489733483 cites W2049171707 @default.
• W1489733483 cites W2049301016 @default.

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