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631.
Stephen J. Lamberth Laurent Drapeau George M. Branch 《Estuarine, Coastal and Shelf Science》2009,84(4):527-538
In KwaZulu-Natal on the east coast of South Africa, the commercial and recreational boat-based linefishery is the largest fishery accounting for 1235 t (40%) of the total landed mass there. In particular, the Thukela Banks are where most fishing takes place. Numerous developments ranging from dams to inter-basin transfer schemes either exist or have been proposed for the Thukela River, which is the largest of 17 catchments entering the sea in the region and provides over 40% of the mean annual runoff. Exploratory analyses of the relationships between monthly flows and catch-per-unit-effort were performed using spectral analysis and general linear models on a data set comprising 17 years of monthly commercial catch-and-effort data for 140 species and monthly flow data from 17 catchments. Catchments having a significant influence on catches were those providing the bulk of the runoff volume (75%) reaching the sea. Significant relationships existed between flow and the catches of 14 species, which provided over 90% of the total linefish catch on the Thukela Banks. Time lags between flow events (wet and drought periods) and changes in catch-per-unit-effort corresponded in many cases to age at 50% maturity and/or age-at-first-capture of the species concerned. Under a future maximum-development scenario, corresponding to a 44% reduction in flow from the Thukela River, catches of slinger Chrysoblephus puniceus and squaretail kob Argyrosomus thorpei are forecast to decline by 36% and 28% respectively. These two species currently provide over 50% of the landed mass on the Thukela Banks. Some species should respond positively to a reduction in flow, but any increases in their catches will be negligible, falling within natural variability, and will be insufficient to offset losses of other species because their abundance is naturally low or has been fished down to low levels. National legislation requires that sufficient freshwater flows be set aside to protect ecosystems, so these findings have important management implications, as marine needs for freshwater flows have not previously been addressed. 相似文献
632.
Simone Di Prima Vincenzo Bagarello Laurent Lassabatere Rafael Angulo‐Jaramillo Inmaculada Bautista Maria Burguet Artemi Cerdà Massimo Iovino Massimo Prosdocimi 《水文研究》2017,31(20):3520-3532
Saturated soil hydraulic conductivity, K s , data collected by ponding infiltrometer methods and usual experimental procedures could be unusable for interpreting field hydrological processes and particularly rainfall infiltration. The K s values determined by an infiltrometer experiment carried out by applying water at a relatively large distance from the soil surface could however be more appropriate to explain surface runoff generation phenomena during intense rainfall events. In this study, a link between rainfall simulation and ponding infiltrometer experiments was established for a sandy‐loam soil. The height of water pouring for the infiltrometer run was chosen, establishing a similarity between the gravitational potential energy of the applied water, E p , and the rainfall kinetic energy, E k . To test the soundness of this procedure, the soil was sampled with the Beerkan estimation of soil transfer parameters procedure of soil hydraulic characterization and two heights of water pouring (0.03 m, i.e., usual procedure, and 0.34 m, yielding E p = E k ). Then, a comparison between experimental steady‐state infiltration rates, i sR , measured with rainfall simulation experiments determining runoff production and K s values for the two water pouring heights was carried out in order to discriminate between theoretically possible (i sR ≥ K s ) and impossible (i sR < K s ) situations. Physically possible K s values were only obtained by applying water at a relatively large distance from the soil surface, because i sR was equal to 20.0 mm h?1 and K s values were 146.2–163.9 and 15.2–18.7 mm h?1 for a height of water pouring of 0.03 and 0.34 m, respectively. This result suggested the consistency between Beerkan runs with a high height of water pouring and rainfall simulator experiments. Soil compaction and mechanical aggregate breakdown were the most plausible physical mechanisms determining reduction of K s with height. This study demonstrated that the height from which water is poured onto the soil surface is a key parameter in infiltrometer experiments and can be adapted to mimic the effect of high intensity rain on soil hydraulic properties. 相似文献