Depletion of Rice as Food of Waterfowl Wintering in the Mississippi Alluvial Valley

Greer, Danielle M.; Dugger, Bruce D.; Reinecke, Kenneth J.; Petrie, Mark J.

doi:10.2193/2008-250

Cited by 44 publications

(69 citation statements)

References 34 publications

(43 reference statements)

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“…Eadie et al (2008) and Remsen et al (1991) reported that 15 species of waterfowl regularly used rice fields during the non-growing season in California and the Gulf Coast, USA, whereas at least nine species were commonly observed in MAV fields (Delnicki and Reinecke 1986;Reinecke et al 1992;Twedt and Nelms 1999;Huner et al 2002;Greer et al 2009). Additionally, authors have reported that waterfowl using rice fields in winter feed heavily on waste rice (Singleton 1951;Reinecke et al 1989;Miller and Newton 1999;Dabbert and Martin 2000;van Groenigen et al 2003;Manley et al 2004;Mugica et al 2006a;Greer et al 2009). …”

Section: Rice Seedsmentioning

confidence: 99%

Avian Foods, Foraging and Habitat Conservation in World Rice Fields

2010

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Section: Rice Seedsmentioning

confidence: 99%

Avian Foods, Foraging and Habitat Conservation in World Rice Fields

2010

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“…More recent studies in Spain have shown that similarly crushed and flooded fields have a waste rice density of 24.5 g m -2 (Toral 2011), while in North America the values range from 6.6 to 67.2 g m -2 (Stafford et al 2010). In any case, we found an abundance of seeds well above the giving-up density of 5 g m -2 , under which waterfowl are considered to cease foraging (Reinecke et al 1989;Greer et al 2009). Therefore, ducks should have considered the experimental plots as a valuable feeding habitat.…”

Section: Discussionmentioning

confidence: 45%

“…It has been demonstrated that winter flooding is highly effective in controlling some weeds such as weedy rice (Oryza sativa L., Fogliatto et al 2010) and in inhibiting dormancy break of other seeds such as the exotic Heteranthera limosa (Baskin et al 2002). Greer et al (2009) attributed 44-47 % of waste rice seed loss over the winter to deterioration due to flooded conditions. Another factor of seed bank decrease may potentially be waterfowl foraging.…”

Section: Discussionmentioning

confidence: 99%

“…Measuring the weed seed bank, we expected greater effects, since not all the seeds present in winter will germinate during the subsequent growing season. Greer et al (2009) estimated that wild waterfowl consumed between 25 and 48 % of waste rice seeds. Concerning weed biomass, the estimated decrease was of 48 % with a medium waterfowl activity (0-21.3 birds ha -1 ) during the winter (van Groenigen et al 2003).…”

Section: Discussionmentioning

confidence: 99%

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Waterfowl foraging in winter-flooded ricefields: Any agronomic benefits for farmers?

Brogi

Pernollet

Gauthier‐Clerc

et al. 2015

Ambio

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Winter-flooding of ricefields provides foraging habitat to waterfowl, which in return may bring agronomic benefits to farmers. Our study experimentally tested the effect of mallards (Anas platyrhynchos) on the standing stalks and weed seed bank in the Camargue (France), both of which present major challenges for farmers. Three duck densities were tested: (D1) 5 ducks ha -1 (historical nocturnal density), (D2) 23 ducks ha -1 (present nocturnal density), and (D3) 300 ducks ha -1 (Asian rice-duck farming density). The ducks reduced the stalks significantly: -27 % (D1), -52 % (D2), and -91 % (D3). Conversely, they decreased the number of seeds by only 3 % (D3) and the seed mass by about 21 % (D1 and D3), which was not significant. Besides they had no effect on seed species richness. This study clearly demonstrates that the winter-flooding effect on straw decomposition can be enhanced by waterfowl foraging, hence showing an agronomic benefit from ducks to farmers. However, there was no clear effect in terms of seed bank reduction.

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“…We used an average true metabolizable energy content for waterfowl foods of 1.55 kcal/g to back-calculate an average kg/ha over our entire study site (outliers-removed data). Our high (mean þ 1 SE) estimate of food availability roughly equates to 112 kg/ha, which is below the observed foraging threshold in many other systems (Naylor 2002;Greer et al 2009;Hagy and Kaminski 2012). Simply stated, the threshold at which ducks cannot (or will not) forage (profitably) could appear as a horizontal line anywhere on Figure 4.…”

Section: Discussionmentioning

confidence: 56%

Notice: The authors have discovered an error in raw data analyzed in this paper. This article has been retracted. The corrected article is published online early as Ringelman KM, Williams CK, Castelli PM, Sieges ML, Longenecker RA, Nichols TC, Earsom AD. 2018. Estimating waterfowl carrying capacity at local scales: A case study from Edwin B. Forsythe National Wildlife Refuge, New Jersey. Journal of Fish and Wildlife Management 9(1):xx-xx; e1944-687X. doi:10.3996/082017-JFWM-066.

Ringelman

Williams

Castelli

et al. 2017

Journal of Fish and Wildlife Management

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The management of wintering North American waterfowl is based on the premise that the amount of foraging habitat can limit populations. To estimate carrying capacity of winter habitats, managers use bioenergetic models to quantify energy (food) availability and energy demand, and use results as planning tools to meet regional conservation objectives. Regional models provide only coarse estimates of carrying capacity because habitat area, habitat energy values, and temporal trends in population-level demand are difficult to quantify precisely at large scales. We took advantage of detailed data previously collected on wintering waterfowl at Edwin B. Forsythe National Wildlife Refuge and surrounding marsh, New Jersey, USA, and created a well-constrained local model of carrying capacity. We used 1,223 core samples collected between 2006 and 2015 to estimate available food. We used species-specific 24-h time-activity data collected between 2011 and 2013 to estimate daily energy expenditure, morphometrically corrected for site-and day-specific thermoregulatory costs. To estimate population-level energy demand, we used standardized monthly ground-surveys (2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014) to create a migration curve, and proportionally scaled that to fit aerial survey data (2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014). Crucially, we also explicitly incorporated estimates of variance in all of these parameters and conducted a sensitivity analysis to diagnose the most important sources of variation in the model. Our results indicated that at estimated mean levels of supply (2.34 3 10 9 kcal) and cumulative demand (3.4 3 10 9 kcal), refuge resources were depleted before the end of the wintering season. However, at one standard error greater in supply and one standard error less in demand, 1.33 3 10 9 kcal remained on the landscape at the end of winter. Variation in model output appeared to be driven primarily by uncertainty in food abundance in high marsh habitats. This model allows for relative assessment of biases and uncertainties in carrying capacity modeling, and serves as a framework identifying critical science needs to improve local and regional waterfowl management planning.

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Depletion of Rice as Food of Waterfowl Wintering in the Mississippi Alluvial Valley

Cited by 44 publications

References 34 publications

Avian Foods, Foraging and Habitat Conservation in World Rice Fields

Avian Foods, Foraging and Habitat Conservation in World Rice Fields

Waterfowl foraging in winter-flooded ricefields: Any agronomic benefits for farmers?

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