Water regimes and littoral plants in four weir pools of the River Murray, Australia

Regulated Rivers: Research & Management Pub Date : 2000-09-01 DOI:10.1002/1099-1646(200009/10)16:5<445::AID-RRR596>3.0.CO;2-L

S. Blanch, K. Walker, G. Ganf

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引用次数: 63

Abstract

Abstract The composition and distribution of littoral vegetation in four weir pools of the lower Murray were surveyed in summer 1994. Between‐weir gradients in the amplitude of water level fluctuations were reflected in the typical distributions of plants, with a 4–6 m elevational range in upper‐pool sites, where levels fluctuate most, and a 1–1.5 m band in the lower‐pool sites, where levels are more stable. Forty‐one of 48 species occurred across much of the longitudinal×elevational site matrix within this cone‐shaped distribution, indicating considerable tolerance to flooding and exposure; this was especially apparent for Phragmites australis, Cyperus spp. and Centipeda spp. The 41 species were represented in seven of nine water‐regime groups identified by cluster analysis. The remainder, found within ±1 m of the water surface in lower‐pool reaches, were aquatic macrophytes such as Vallisneria americana and Typha spp. and amphibious ‘mudmats’ such as Glossostigma elatinoides. Water regimes at given sites were measured by the number of days in 2 years flooded to any depth (>0 cm), or to 0–30 cm, and by days exposed by >100 cm. Inter‐pool differences in the median number of days flooded to >0 cm and 0–30 cm were 3–30% and <8%, respectively, for all species except Typha spp. but an order of magnitude for the number of days exposed by >100 cm. However, eight of 14 common or representative species analysed showed significant inter‐pool differences in the number of days flooded to >0 cm, indicating that sufficient variation exists to necessitate considerable intra‐pool replication to allow for the detection of statistical differences in a multi‐pool experiment. The practice of maintaining stable weir pool levels limits vegetation processes, e.g. germination, recruitment, decomposition. An increase in the amplitude of river level fluctuations during low flows, from the current 10–20 cm range to 20–50 cm, would reinstate water regimes suitable to the majority of species surveyed. Copyright © 2000 John Wiley & Sons, Ltd.

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澳大利亚穆雷河四个堰池中的水系和沿岸植物

摘要1994年夏季对墨累下游4个堰池的滨海植被组成和分布进行了调查。水位波动幅度的堰间梯度反映在典型的植物分布中，在水位波动最大的上池地点，海拔范围为4-6 m，而在水位更稳定的下池地点，海拔范围为1-1.5 m。48个物种中的41个出现在这个锥形分布的longitudinal×elevational站点基质的大部分地区，表明对洪水和暴露有相当大的耐受性;这在芦苇、莎草和蜈蚣中表现得尤为明显。聚类分析发现，这41种植物分布在9个水态类群中的7个。其余的，在离水面±1米范围内发现的，是水生植物，如美洲缬草和泰帕，以及两栖“泥沼”，如舌藻。给定地点的水状况是通过2年内淹没到任何深度(100 - 100厘米)或0 - 30厘米的天数以及暴露在100 - 100厘米的天数来测量的。池间被淹至100 ~ 100 cm和0 ~ 30 cm的中位天数差异分别为3 ~ 30%和100 cm。然而，在分析的14种常见或有代表性的物种中，有8种在被淹至100 ~ 100厘米的天数上显示出显著的池间差异，这表明存在足够的差异，需要相当大的池内复制，以便在多池实验中检测统计差异。保持堰池水位稳定的做法限制了植被过程，如发芽、补充、分解。在低流量期间，增加河流水位波动的幅度，从目前的10-20厘米范围增加到20-50厘米，将恢复适合大多数被调查物种的水状况。版权所有©2000约翰威利父子有限公司

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Regulated Rivers: Research & Management

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