Wassmann und Aulakh - 2000 - The role of rice plants in regulating mechanisms o
Wassmann und Aulakh - 2000 - The role of rice plants in regulating mechanisms o
Wassmann und Aulakh - 2000 - The role of rice plants in regulating mechanisms o
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29<br />
Ueckert J, Hurek T, Fendrik I, Niemann EG (1990) Radial gas<br />
diffusion from roots <strong>of</strong> <strong>rice</strong> and kallargrass (Leptochloa fusca<br />
L. Kunth), and effects <strong>of</strong> <strong>in</strong>oculation with Azospirillum brasilence<br />
Cd. Plant Soil 112:59–65<br />
Van Raalte MH (1941) On the oxygen supply <strong>of</strong> <strong>rice</strong> <strong>plants</strong>. Ann<br />
Bot Gard Buitenzorg 51:43–57<br />
Wang B (1995) Effect <strong>of</strong> <strong>rice</strong> cultivar on diel and seasonal methane<br />
emission. Ph D. <strong>The</strong>sis. University <strong>of</strong> Philipp<strong>in</strong>es, Los<br />
Baños, Philipp<strong>in</strong>es<br />
Wang B, Neue HU, Samonte HP (1997a) Effect <strong>of</strong> cultivar difference<br />
(‘IR72’, ‘IR65598’ and ‘Dular’) on methane emission.<br />
Agric Ecosyst Environ 62 :31–40<br />
Wang B, Neue HU, Samonte HP (1997b) Role <strong>of</strong> <strong>rice</strong> <strong>in</strong> mediat<strong>in</strong>g<br />
methane emission. Plant Soil 189:107–115<br />
Wang B, Neue HU, Samonte HP (1997c) Effect <strong>of</strong> <strong>rice</strong> plant on<br />
seasonal methane emission patterns. Acta Agron S<strong>in</strong><br />
23:271–279<br />
Wang ZP, Delaune RD, Masscheleyn PH, Patrick WH Jr (1993)<br />
Soil redox and pH effects on methane production <strong>in</strong> a flooded<br />
<strong>rice</strong> soil. Soil Sci Soc Am J 57:382–385<br />
<strong>Wassmann</strong> R, Papen H, Rennenberg H (1993a) Methane emission<br />
from <strong>rice</strong> paddies and possible mitigation options. Chemosphere<br />
26:201–217<br />
<strong>Wassmann</strong> R, Wang MX, Shangguan XJ, Xie XL, Shen RX, Papen<br />
H, Rennenberg H, Seiler W (1993b) First records <strong>of</strong> a<br />
field experiment on fertilizer effect on methane emission from<br />
<strong>rice</strong> fields <strong>in</strong> Human prov<strong>in</strong>ce (PR Ch<strong>in</strong>a) Geophys Res Lett<br />
20:2071–2074<br />
<strong>Wassmann</strong> R, Neue HU, Lant<strong>in</strong> RS, Aduna JB, Alberto MCR,<br />
Andales MJ, Tan MJ, Denier van der Gon HAC, H<strong>of</strong>fmann<br />
H, Papen H, Rennenberg H, Seiler W (1994) Temporal patterns<br />
<strong>of</strong> methane emissions from wetland <strong>rice</strong>fields treated by<br />
different modes <strong>of</strong> N application. J Geophys Res<br />
99:16457–16462<br />
<strong>Wassmann</strong> R, Neue HU, Alberto MCR, Lant<strong>in</strong> RS, Bueno C,<br />
Llenaresas D, Arah JRM, Papen H, Seiler W, Rennenberg H<br />
(1996) Fluxes and pools <strong>of</strong> methane <strong>in</strong> wetland <strong>rice</strong> soils with<br />
vary<strong>in</strong>g organic <strong>in</strong>puts. Environ Monitor Assess 42:163–173<br />
<strong>Wassmann</strong> R, Moya TB, Lant<strong>in</strong> RS (1998) Rice and global<br />
change. In: Dowl<strong>in</strong>g NG, Greenfield SM, Fischer KS (eds)<br />
Susta<strong>in</strong>ability <strong>of</strong> <strong>rice</strong> <strong>in</strong> the global food system. Pacific Bas<strong>in</strong><br />
Study Center and International Rice Research Institute, Manila,<br />
Philipp<strong>in</strong>es, pp 205–224<br />
Watanabe I (1984) Anaerobic decomposition <strong>of</strong> organic matter <strong>in</strong><br />
flooded <strong>rice</strong> soils. In: Organic matter and <strong>rice</strong>. International<br />
Rice Research Institute, Los Baños, Philipp<strong>in</strong>es, pp 237–258<br />
Watanabe I, Takada G, Hashimoto T, Inubushi K (1995a) Evaluation<br />
<strong>of</strong> alternative substrates for determ<strong>in</strong><strong>in</strong>g methane-oxidiz<strong>in</strong>g<br />
activities and methanotrophic populations <strong>in</strong> soils. Biol<br />
Fertil Soils 20:101–106<br />
Watanabe A, Kajiwara M, Tashiro T, Kimura M (1995b) Influence<br />
<strong>of</strong> <strong>rice</strong> cultivar on methane emission from paddy<br />
fields. Plant Soil 17 :51–56<br />
Watanabe I, Hashimoto T, Shimoyama A (1997) Methane-oxidiz<strong>in</strong>g<br />
activities and methanotrophic populations associated with<br />
wetland <strong>rice</strong> soils. Biol Fertil Soils 24 :261–265<br />
Yagi K, Chairoj P, Tsurata H, Cholitkul W, M<strong>in</strong>ami K (1994) Methane<br />
emission from Japanese and Thai paddy fields. In: M<strong>in</strong>ami<br />
K, Mosier A, Sass RL (eds) CH 4 and N 2 O global emissions<br />
and controls from <strong>rice</strong> fields and other agricultural and<br />
<strong>in</strong>dustrial sources. NIAES Series 2. National Institute <strong>of</strong><br />
Agro-Environmental Sciences, Tsukuba, Japan, pp 41–53<br />
Yagi K, M<strong>in</strong>ami K (1990) Effects <strong>of</strong> organic application on methane<br />
emission from Japanese paddy fields. In: Bouwman AF<br />
(ed) Soils and greenhouse effect. Wiley, Chichester, pp<br />
467–473<br />
Yoshida T (1975) Microbial metabolism <strong>in</strong> flooded soils. In: Paul<br />
EA, McLaren AD (eds) Soil biochemistry, vol 3. Dekker,<br />
New York, pp 83–122