Recovery following experimental harvesting ofLaminaria longicruris andL. digitata in southwestern Nova Scotia

Smith, Barry D.

doi:10.1007/bf01997523

Cited by 20 publications

(21 citation statements)

References 13 publications

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“…This feature may explain some of the year-to-year variation in standing crop for unharvested populations of L. longicruris and L. digitata (Table 1). The location of this study is subject to storms and ice scouring during winter causing plant mortahties (Smith 1985). This study predicts increased success of L. longicruris following a disturbance because of reduced standing crop and plant densities, as observed for Lessonia nigrescen.…”

Section: Discussionmentioning

confidence: 72%

“…Alternatively, canopy removal has also resulted in patterns of succession that do not immediately result in increased recruitment by the species removed , Santelices & Ojeda 1984a, and papers cited therein). This does not appear to be the pattern for this system (Smith 1985).…”

Section: Discussionmentioning

confidence: 72%

“…13.9 cm (n = 1200) for the harvest and control plots at 3 to 4 m below mean sea level (MSL), the depth range relevant to this study. The composition of the seaweed community at this site was described in Smith (1985).…”

Section: Site Descriptionmentioning

confidence: 99%

“…Table 2 for summary of survivorship parameters ' For Laminana digitata the data do not suggest that control and harvest populations should be considered separately, therefore the data reported are for the control and harvest populations combined From Fig. 3; X = number of days since monitoring began; Y = percentage survivorship C Based on arguments in Smith (1985) Laminaria growth enhancement by canopy removal Table 3 variables introduced in Smith (1985). Daily net growth rates are mean rates between sampling dates.…”

Section: Laminaria Recovery and Survivorshipmentioning

confidence: 99%

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Implications of population dynamics and interspecific competition for harvest management of the seaweed Laminaria

Smith¹

1986

Mar. Ecol. Prog. Ser.

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Growth rates and population variables of the seaweeds Laminaria longicruris De la Pylaie and L. digitata (Hudson) Lamouroux were monitored from July 1980 until April 1983 within adjacent harvested and control plots in southwestern Nova Scotia, Canada. Faster growth rates within the harvested plot, relative to the control plot, for new recruits of both species were detected only during the first year following a September 1980 total harvest of both species. Since standing crop had nearly recovered to pre-harvest levels after 1 yr, the increased growth rate was attributed to reduced standing crop during the first year post-harvest. Analysis of the relationship between each species' summer canopy biomass and the density of the most recent year-class developing in the sub-canopy at the same time provided evidence for interspecific competition, and provided parameter estimates for the relationship. A stochastic model of this 2-species interaction using reliable data on growth, recruitment, and mortality predicts long-term persistence of both species in the absence of harvesting, or other disturbances. Following total harvest, L. longicruris is initially more abundant than L. digitata, but an increasing canopy of L. digitata diminishes the dominance of L. longicruris over a period of 3 to 5 yr.Annual harvesting of only the canopy of L. longicruris (a practical and perhaps technically preferable strategy) produces only 4 % of the yield for a total annual harvest. Annual harvesting of the canopy of L. longicruris plus L. digitata produces only 11 % of the yield for a total annual harvest. These lower yields result from a large decrease in L. longicruris growth rate with increased density. This feature diminishes the effectiveness of removing L. digitata to reduce competition with faster growing L.longicruris. The need for controlled and monitored experimental harvests to evaluate these predictions is discussed, as is the need for more functional analyses of seaweed systems.

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Section: Discussionmentioning

confidence: 72%

Section: Discussionmentioning

confidence: 72%

Section: Site Descriptionmentioning

confidence: 99%

Section: Laminaria Recovery and Survivorshipmentioning

confidence: 99%

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Implications of population dynamics and interspecific competition for harvest management of the seaweed Laminaria

Smith¹

1986

Mar. Ecol. Prog. Ser.

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“…Although Parke (1948) and Reynolds (1974) have reported life-spans of up to 3 yr in individuals, Parke (1948) demonstrated that the average life expectancy for L. saccharina in Great Britain was 2 yr. Chapman (1984) and Smith (1985) reported that the longevity of L. longicruris in Nova Scotia, Canada, was 25 and 20 mo, respectively. Populations of L. saccharina from LIS (Brinkhuis et al 1983) and intertidal populations of the same species from British Columbia, Canada, (Druehl & Hsiao 1977) were described as being annuals.…”

Section: Discussionmentioning

confidence: 99%

Productivity and life history of Laminaria longicruris at its southern limit in the Western Atlantic Ocean

Egan¹,

Yarish²

1990

Mar. Ecol. Prog. Ser.

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Ecological impact of marine plant harvesting in the northwest Atlantic: a review

Sharp¹,

Pringle²

1990

Thirteenth International Seaweed Symposium

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Recovery following experimental harvesting ofLaminaria longicruris andL. digitata in southwestern Nova Scotia

Cited by 20 publications

References 13 publications

Implications of population dynamics and interspecific competition for harvest management of the seaweed Laminaria

Implications of population dynamics and interspecific competition for harvest management of the seaweed Laminaria

Productivity and life history of Laminaria longicruris at its southern limit in the Western Atlantic Ocean

Ecological impact of marine plant harvesting in the northwest Atlantic: a review

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