Impact of deferred grazing on profitability of a hill country farm in north-western Waikato

Tozer, K. N.; Howarth, Steve; Sherlock, Jon; Tarbotton, Ian S.

doi:10.33584/rps.17.2021.3442

Cited by 2 publications

(1 citation statement)

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“…Workshop participants thought we should use viable alternatives as full or partial replacements to herbicides, if they are effective, but more work is needed to understand alternative strategies. Some alternatives deserve to have continued scrutiny and testing, such as classical and inundative biocontrols (Bourdôt et al, 2007(Bourdôt et al, , 2018Bourdôt & Cripps, 2018;Ghanizadeh & Harrington, 2019), deferred grazing (Tozer et al, 2020(Tozer et al, , 2021, or regenerative agricultural practices. There was a hope that new herbicides with benign breakdown products could be developed in future, perhaps using innovative genetic approaches (Duke et al, 2019) or naturally occurring chemicals involved in plant defense.…”

Section: Reduced Availability Of Herbicidesmentioning

confidence: 99%

A horizon scan for temperate pastoral weed science–a New Zealand perspective

Buddenhagen

Bourdôt²,

Cripps³

et al. 2022

New Zealand Journal of Agricultural Research

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There have been horizon scans (strategic science reviews) recently for weed biology, but none that focus on weeds of pastures. Here we report on our process for writing the Pastoral Sector Weeds Research Strategy (2018)(2019)(2020)(2021)(2022)(2023)(2024)(2025)(2026)(2027)(2028) for New Zealand and then follow-up with the focus of the current article, a horizon scan for pastoral weed science. Scientists and stakeholders involved in weeds and pasture systems participated in two workshops to determine which issues and opportunities are emerging as drivers of innovation for weed science and weed management. We identified 11 major issues and 46 subordinate ones, but the three most highly ranked major issues were: 1) anticipated reductions in our access to herbicides; 2) rethinking weed management under an ecosystem services paradigm; 3) responding to a regulatory push for farm system planning designed to address biosecurity risk, biodiversity, carbon budgets, contaminants, and nutrient run-off in addition to production value. The workshop participants were asked to rank the 3 major issues (and some subordinate ones) using the criteria: 1) is this a horizon (is the issue or question likely to become more important in 10-20 years?); 2) will it require stretchy science (is the question or issue currently not well addressed by the science community?); 3) is it transformative (will successful scientific research in this area lead to significant changes to weed management in pastures?). Most of the issues identified are shared in pastoral systems worldwide and involve reducing environmental footprint of farming while maintaining productivity.

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Section: Reduced Availability Of Herbicidesmentioning

confidence: 99%

A horizon scan for temperate pastoral weed science–a New Zealand perspective

Buddenhagen

Bourdôt²,

Cripps³

et al. 2022

New Zealand Journal of Agricultural Research

Self Cite

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Effect of three defoliation frequency treatments and drought on perennial ryegrass herbage and root growth and water‐soluble carbohydrate reserves

Tozer,

Greenfield,

Cameron

et al. 2024

Grassland Research

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BackgroundGrazing approaches are needed to increase the resilience of perennial ryegrass (Lolium perenne L.)‐based pastures subject to increasing drought stress. One opportunity has focused on seedhead management in late spring. Paddock‐level studies demonstrated increased pasture resilience when ryegrass seedheads are allowed to mature, but knowledge is lacking on how defoliation management affects plant carbohydrate status and hence resilience in the sward.MethodsA glasshouse study was conducted from spring to autumn using 1 m deep root tubes. Plant growth and water‐soluble carbohydrate (WSC) reserves were measured every 4–6 weeks. Defoliation treatments comprised “VEGETATIVE”—regular defoliation based on leaf stage and trimmed to 4 cm; “FLOWERING”—no defoliation spring to anthesis; and “SENESCENT”—no defoliation spring to reproductive tiller senescence. Thereafter, regular defoliation was carried out for all treatments until the end of the study. From spring to the end of summer, plants were watered daily in WET (no drought, well watered) and on four occasions in DRY (drought) treatments, with daily watering thereafter.ResultsHerbage mass, tillering, root depth, root mass, and WSC were generally higher in SENESCENT than VEGETATIVE with FLOWERING intermediate (p < 0.05). Nutritive values were similar in VEGETATIVE and FLOWERING, but in SENESCENT, metabolizable energy and crude protein declined and neutral detergent fiber increased (p < 0.05). Soil moisture effects were small, with the DRY treatment resulting in moderate suppression of herbage growth and a minor reduction in WSC reserves (p < 0.05).ConclusionsResults were consistent with field studies and recommendations to allow perennial ryegrass tillers to set seed to improve pasture resilience.

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Impact of deferred grazing on profitability of a hill country farm in north-western Waikato

Cited by 2 publications

References 0 publications

A horizon scan for temperate pastoral weed science–a New Zealand perspective

A horizon scan for temperate pastoral weed science–a New Zealand perspective

Effect of three defoliation frequency treatments and drought on perennial ryegrass herbage and root growth and water‐soluble carbohydrate reserves

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