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Articles citing this paper

Nitrogenase activity (C2H2 reduction) in soils following wheat straw retention: effects of straw management

MM Roper, GW Marschke and NA Smith
40(2) pp.241 - 253


19 articles found in Crossref database.

Management of Biological Nitrogen Fixation for the Development of More Productive and Sustainable Agricultural Systems (1995)
Roper Margaret M., Ladha J. K.
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Mineral Nutrition of Higher Plants (1995)
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Nitrogenase activity (C2H2 reduction) in straw-amended wheat belt soils in response to diazotroph inoculation
Halsall Dorothy M., Gibson Alan H.
Soil Biology and Biochemistry. 1991 23(10). p.987
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Potential for non-symbiotic N2-fixation in different agroecological zones of southern Australia
Gupta V. V. S. R., Roper M. M., Roget D. K.
Soil Research. 2006 44(4). p.343
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Marschner's Mineral Nutrition of Higher Plants (2002)
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Regional and local factors affecting diversity, abundance and activity of free-living, N2-fixing bacteria in Australian agricultural soils
Wakelin S.A., Gupta V.V.S.R., Forrester S.T.
Pedobiologia. 2010 53(6). p.391
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Mulching effect of plant residues on soybean growth and soil chemical properties
Kitou Makoto, Yoshida Shigekata
Soil Science and Plant Nutrition. 1994 40(2). p.211
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Marschner's Mineral Nutrition of Higher Plants (2012)
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Biological N2 fixation by heterotrophic and phototrophic bacteria in association with straw
Roper Margaret M., Ladha J. K.
Plant and Soil. 1995 174(1-2). p.211
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(2005)
Yadvinder-Singh , Bijay-Singh , Timsina J.
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Evidence for the functional significance of diazotroph community structure in soil
Hsu Shi-Fang, Buckley Daniel H
The ISME Journal. 2009 3(1). p.124
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Management of Biological Nitrogen Fixation for the Development of More Productive and Sustainable Agricultural Systems (1995)
Roper Margaret M., Ladha J. K.
[Crossref]

Enhancing Non-symbiotic N2 Fixation in Agriculture
Roper M. M., Gupta V. V. S. R.
The Open Agriculture Journal. 2016 10(1). p.7
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Physiology of Salt Stress in Plants (2021)
Jaiswal Lav Kumar, Singh Prabhakar, Singh Rakesh Kumar, Nayak Tanamyee, Tripathi Yashoda Nandan, Upadhyay Ram Sanmukh, Gupta Ankush
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Straw decomposition and nitrogenase activity (C2H2 reduction) by free-living microorganisms from soil: Effects of pH and clay content
Roper Margaret M., Smith Neil A.
Soil Biology and Biochemistry. 1991 23(3). p.275
[Crossref]

Contribution to the N status of soil by free-living N2-fixing bacteria in a lucerne stand
Roper M.M., Gault R.R., Smith N.A.
Soil Biology and Biochemistry. 1995 27(4-5). p.467
[Crossref]

Nitrogenase activity by diazotrophs grown on a range of agricultural plant residues
Halsall Dorothy M., Gibson Alan H.
Soil Biology and Biochemistry. 1989 21(8). p.1037
[Crossref]

Improving Stubble Flow through Tines on Agricultural Machinery
Mead J.A, Qaisrani R
Biosystems Engineering. 2003 85(3). p.299
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Nitrogenase activity (C2H2 reduction) by free-living bacteria in soil in a long-term tillage and stubble management experiment on a vertisol
Roper Margaret M., Turpin Jillanne E., Thompson John P.
Soil Biology and Biochemistry. 1994 26(8). p.1087
[Crossref]

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