Jerry C. Dlamini; L. M. Cardenas; Eyob Habte Tesfamariam; Robert M. Dunn; Nadine Loick; Alice F. Charteris; L. Cocciaglia; Sebastián Vangeli; M. S. A. Blackwell; Hari Ram Upadhayay; J. M. B. Hawkins; Jessica Evans; Adrian L. Collins

doi:10.1016/j.agee.2022.108031

Summary

Riparian buffer strips can have a significant role in reducing nitrogen (N) transfers from agricultural land to freshwater primarily via denitrification and plant uptake processes, but an unintended trade-off can be elevated nitrous oxide (N2O) production rates. Against this context, our replicated bounded plot scale study investigated N2O emissions from un-grazed ryegrass pasture served by three types of riparian buffer strips with different vegetation, comprising: (i) grass riparian buffer with novel deep-rooting species, (ii) willow (young trees at establishment phase) riparian buffer, and (iii) deciduous woodland (also young trees at establishment phase) riparian buffer. The experimental control was ryegrass pasture with no buffer strip. N2O emissions were measured at the same time as

Subject: Cereals & grains
Source type: Peer-reviewed study
System type: Other
DOI: 10.1016/j.agee.2022.108031
Catalogue ID: NRmo9rin9c-0y3

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Riparian buffer strips influence nitrogen losses as nitrous oxide and leached N from upslope permanent pasture

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