Articles citing this paper

Mitigation of nitrous oxide emissions with nitrification inhibitors in temperate vegetable cropping in southern Australia

D. A. Riches ^A ^D , S. W. Mattner ^B , R. Davies ^C and I. J. Porter ^A ^D

+ Author Affiliations

- Author Affiliations

^A Department of Animal, Plant and Soil Sciences, La Trobe University, Bundoora, Vic. 3086, Australia.

^B Victorian Strawberry Industry Certification Authority, 1015 Myers Road, Toolangi, Vic. 3777, Australia.

^C BASF Australia Ltd, 28 Freshwater Place, Southbank, Vic. 3006, Australia.

^D Corresponding authors. Email: d.riches@latrobe.edu.au; i.porter@latrobe.edu.au

Soil Research 54(5) 533-543 https://doi.org/10.1071/SR15320
Submitted: 30 October 2015 Accepted: 17 March 2016 Published: 18 July 2016

12 articles found in Crossref database.

Nitrification inhibitors can increase post-harvest nitrous oxide emissions in an intensive vegetable production system

Scheer Clemens, Rowlings David, Firrell Mary, Deuter Peter, Morris Stephen, Riches David, Porter Ian, Grace Peter

Scientific Reports. 2017 7(1).

[Crossref]

Opportunities to improve nitrogen use efficiency in an intensive vegetable system without compromising yield

Suter Helen, Pandey Arjun, Lam Shu Kee, Davies Rohan, Hassan Rifaath, Riches David, Chen Deli

Journal of Environmental Quality. 2021 50(3). p.791

[Crossref]

N2O and CO2 emissions following repeated application of organic and mineral N fertiliser from a vegetable crop rotation

De Rosa Daniele, Rowlings David W., Biala Johannes, Scheer Clemens, Basso Bruno, Grace Peter R.

Science of The Total Environment. 2018 637-638 p.813

[Crossref]

Combining nitrification inhibitors with a reduced N rate maintains yield and reduces N2O emissions in sweet corn

Muller Jesse, De Rosa Daniele, Friedl Johannes, De Antoni Migliorati Massimiliano, Rowlings David, Grace Peter, Scheer Clemens

Nutrient Cycling in Agroecosystems. 2023 125(2). p.107

[Crossref]

Carbon limits non-linear response of nitrous oxide (N2O) to increasing N inputs in a highly-weathered tropical soil in Sri Lanka

Liyanage Anuga, Grace Peter R, Scheer Clemens, de Rosa Daniele, Ranwala Sudheera, Rowlings David W

Agriculture, Ecosystems & Environment. 2020 292 p.106808

[Crossref]

Impact of nitrogen fertilizer, greenhouse, and crop species on yield-scaled nitrous oxide emission from vegetable crops: A meta-analysis

Yang Tong, Li Fengbo, Zhou Xiyue, Xu ChunChun, Feng Jinfei, Fang Fuping

Ecological Indicators. 2019 105 p.717

[Crossref]

Effect of a Fortified Biostimulant Extract on Tomato Plant Productivity, Physiology, and Growing Media Properties

Weisser Marianne, Mattner Scott William, Southam-Rogers Liam, Hepworth Graham, Arioli Tony

Plants. 2023 13(1). p.4

[Crossref]

Nitrogen Related Diffuse Pollution from Horticulture Production—Mitigation Practices and Assessment Strategies

Cameira Maria, Mota Mariana

Horticulturae. 2017 3(1). p.25

[Crossref]

Benchmarking and mitigation of nitrous oxide emissions from manures and fertilisers used in temperate vegetable crops in Australia

Porter Ian, Riches David, Scheer Clemens

Soil Research. 2017 55(6). p.534

[Crossref]

Soil greenhouse gas emissions from Australian sports fields

Riches David, Porter Ian, Dingle Greg, Gendall Anthony, Grover Samantha

Science of The Total Environment. 2020 707 p.134420

[Crossref]

Impact of enhanced efficiency fertilizers on potato productivity in a temperate cropping system

Eyles A., Ives S., Hardie M., Corkrey R., Boersma M.

Soil Use and Management. 2018 34(4). p.439

[Crossref]

Soil N2O emissions from specialty crop systems: A global estimation and meta‐analysis

Li Lidong, Hong Mu, Zhang Yao, Paustian Keith

Global Change Biology. 2024 30(3).

[Crossref]