Summary
Little information is available on the use of woven black polypropylene weed control mat in ecological restoration. At a 6.5‐ha area of fertile Vertosol soil ex‐farmland near Perth, Western Australia, concerted efforts to control weed using conventional methods such as herbicides, fire and cultivation proved ineffective. After 5 years, weeds still dominated the site, and native plant establishment was poor. Small‐scale preliminary trials of various weed suppression coverings were then undertaken, with plastic weed mat the most cost‐effective in overcoming the weed threshold, permitting native tree seedling establishment. In a larger‐scale trial of weed mat over the whole site, weeds were controlled and high levels of native plant establishment achieved, with a diverse range of understorey, midstorey and overstorey species providing 56% projected foliage cover. This ensured that completion criteria were finally satisfied. These results suggest that weed mat may be effective for weed control in large‐scale restoration where conventional methods have failed, as long as ultimate removal or decomposition and other issues are addressed.
Restoration Notes have been a distinguishing feature of Ecological Restoration for more than 25 years. This section is geared toward introducing innovative research, tools, technologies, programs, and ideas, as well as providing short-term research results and updates on ongoing efforts. Please direct submissions and inquiries to the editorial staff (ERjournal@ aesop.rutgers.edu).
Summary
Three thicknesses of composted soil conditioner, and one combined with mulch, surface‐applied and then incorporated into the sandy topsoil, were tested against controls for promotion of native plant establishment by direct seeding in construction of a seasonal wetland complex. Located 50 km south of Perth, Western Australia in a Mediterranean climate, the site typically dries out in summer. In wetter seasons ponds intercept contaminants in freeway runoff and act as a buffer for peak flows. The 20 mm thickness of soil conditioner was the most effective. The 40 mm thick 40:60 blend of soil conditioner and mulch was also effective – the mulch can help reduce soil erosion. Composted soil conditioner, typically produced by recycling accumulated municipal waste, counteracts soil organic matter and nutrient depletion.
Summary
Slender Banksia (Banksia attenuata) is a primary component of declining Banksia woodlands around Perth, south‐western Australia. It is important that its re‐establishment be promoted, but there are little data on its growth rates and response to applied nutrients. To quantify longer‐term growth rate, I periodically measured heights of Slender Banksia planted mid‐2005 over 7½ years. Without fertiliser, these seedlings grew slowly to about 1½ m. In mid‐2009, I planted Slender Banksia on the same site, with and without fertiliser tablets, and evaluated survival, growth and root development over 1½ years. First‐summer Slender Banksia seedling survival of around 30% was not unusual for this species. Low‐phosphorus native plant fertiliser tablets increased growth significantly.
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