Negative effects of tropospheric ozone on the feed value of rice straw are mitigated by an ozone tolerance QTL
Frei, M; Kohno, Y; Wissuwa, M; Makkar, HPS; Becker, K
| HERO ID | 783768 |
|---|---|
| In Press | No |
| Year | 2011 |
| Title | Negative effects of tropospheric ozone on the feed value of rice straw are mitigated by an ozone tolerance QTL |
| Authors | Frei, M; Kohno, Y; Wissuwa, M; Makkar, HPS; Becker, K |
| Journal | Global Change Biology |
| Volume | 17 |
| Issue | 7 |
| Page Numbers | 2319-2329 |
| Abstract | High surface ozone concentrations are recognized as an emerging threat to food security in Asia. This study aimed at determining the effects of ozone on the nutritive quality of rice straw, a by-product of rice grain production and a major feed resource for ruminant livestock. Further, the question was addressed whether negative effects of ozone can be mitigated through molecular breeding. Rice plants from three different genotypes were exposed to four different ozone treatments in fumigation chambers from transplanting to maturity. These genotypes were (i) IR64, one of the most wide spread indica varieties in the world, (ii) Nipponbare, a typical japonica variety, and (iii) SL41, an ozone tolerant breeding line that carried chromosomal inserts at the ozone tolerance QTL OzT9 in the genetic background of Nipponbare. The treatments consisted of (i) charcoal filtered air, (ii) simulated ambient ozone concentration, (iii) 2 × ambient ozone concentration, and (iv) 2.5 × ambient ozone concentration. The effects of ozone on the chemical composition of straw were clearly dependent of the ozone level, and were significant even at ambient ozone concentration. Increases in crude ash, lignin and phenolics concentration adversely affected the digestibility as demonstrated in incubation experiments simulating rumen digestion in vitro. Negative ozone effects included reductions in the rate and extent of gas production due to inhibition of microbial fermentation, reduced formation of short chain fatty acids (SCFA), and a decrease in the true organic matter digestibility. The ozone tolerant genotype SL41 was less responsive to ozone than its more susceptible recurrent parent Nipponbare in terms of lignin and phenolics formation, organic matter digestibility and SCFA production. These data demonstrate that the feed quality of rice straw is affected by ozone even at ambient concentration, and that these negative effects are mitigated by the ozone tolerance QTL OzT9. |
| Doi | 10.1111/j.1365-2486.2010.02379.x |
| Wosid | WOS:000291221000005 |
| Is Certified Translation | No |
| Dupe Override | No |
| Is Public | Yes |
| Keyword | environmental stress; lignin; phenolics; phenylpropanoids; pollution; quantitative trait loci; tolerance breeding |
| Is Qa | No |