Abstract

These data were collected as part of the NSW Grazing Study. This study investigates how past grazing pressure has influenced the resilience of all three vegetation communities. We assessed three key ecosystem processes or components that provide important information on the likely resilience of reserves following removal, or reduction in the densities of, domestic stock. These processes are 1) soil nutrient cycling, 2) soil hydrology and 3) seed bank dynamics.

For each community, we examined 18 individual sites scattered widely across the full range of the vegetation community, in three distinct groups (n = 54). In Cypress pine, the groups were selected along a gradient from north to south i.e. Cobar/Yathong (northern group), Griffith/Merriwagga (central group) and Narrandera/ Buckingbong (southern group). Similarly, Black box sites spanned a north-south gradient from Hillston (northern group), Griffith (central group) to Edwards River (southern group). River red gum sites were located along a gradient from east to west: Corowa (eastern group), Millewa (central group) and Deniliquin (western group). Each group contained three pairs of sites, with each pair corresponding to one of three different levels of grazing intensity; undisturbed (good condition), moderately disturbed (average condition) and highly disturbed (poor condition) by herbivore grazing. The assignment was based on attributes such as erosion extent, presence of exotic plants, groundstorey vegetation cover, the number of livestock and native herbivores (kangaroos, Macropus spp). For example, undisturbed (high condition) sites had an extensive cover of biocrusts, extensive litter cover, a plant community composition dominated by native species with a good mixture of annuals and perennials, abundant large grass butts, little evidence of erosion, high scores for the stability index and little evidence of grazing by livestock (based on dung counts and stock tracks). Highly disturbed sites were characterised by opposite levels of these attributes, and moderately disturbed sites intermediate between the two.

Floristic sampling - At each of the 54 sites we established a 100 m transect, perpendicular to the main watering point, along which we positioned three large quadrats (5 m x 5 m) at 0 m, 50 m and 100 m. Within these plots we centrally located a smaller (0.5 m x 0.5 m) quadrat. Within the large quadrats we conducted a full floristic survey (scoring the cover and abundance of all vascular plants).

Grazing Intensity - To assess recent grazing intensity, we identified and counted the dung or pellets of all herbivores (cattle, sheep/goat, kangaroo) within the large (5m x 5m) and small (0.5m x 0.5m) (kangaroo, rabbit, sheep/goat) quadrats. For cattle, the count of dung events from three 5m x 5m quadrats. For sheep, goat, deer, kangaroo, rabbit the count of pellets from three 5m x 5m quadrats and three 0.5m x 0.5m quadrats.

Soil chemical and biological assessment - At each of the 0m, 50m and 100m positions along the site transect we collected two samples of the top 5 cm of soil with a soil corer. Samples were placed into one bag and a subsample of about 100 g taken for microbial and soil chemical analyses. Soil enzyme concentrations and soil nutrient pools were analysed at UNSW. Gene sequencing, using the Illumina MiSeq platform for bacteria and fungi, were carried out using the Next Generation Genome Sequencing Facility at the University of Western Sydney.

Soil infiltration measurements - We measured infiltration at the Black box and Cypress pine sites only, i.e. 36 of the 54 Stage III sites. At each microsite we used two disk permeameters, simultaneously, to measure sorptivity and steady-state infiltration under ponding (+ 10 mm) and under tension (- 40 mm). Disk permeameters were placed within 30 cm of each other, or as close as possible for measurements over grass butts. The tension permeameter was placed on a thin bed of sand to provide a uniform contact with the soil surface, and the ponded permeameter on a steel ring above a pond of water about 5 cm deep. For shrubs and trees, the permeameters were placed in the centre of the canopy. For grass microsites, the above-ground material was clipped and the permeameters placed directly over the grass butt. The permeameters were run for at least 12 minutes to ensure that they had achieved steady-state infiltration. This method allowed us to calculate values for both stages of infiltration: sorptivity, the early stage, and steady-state infiltration, the final stage of infiltration. River red gum sites were excluded from soil infiltration measures because their heavy textured soils are prone to developing deep cracks, making the assessment of infiltration technically very difficult.

Seedbank dynamics - At each site (54) all three communities (Redgum, black box and cypress pine) two core samples were collected at 5 points to 5cm deep (0m, 50m, 100m, 150m 200m) at four patch types (tree, shrub, grass, open) along a 200m transect.
Seedling emergence experiments were conducted to determine the composition of the germinable soil seed bank (Thompson & Grime, 1979). The sieved soil was spread evenly (~5 mm deep) over sterilised sand in commercial germination trays (35 cm × 14 cm) and placed in an unheated greenhouse. The trays were watered regularly to keep the soil moist or at field capacity and the position of all trays was randomly allocated to account for a possible bias associated with tray position. Ten control trays, i.e. trays containing only sterilised sand, were evenly distributed in the greenhouse to control for glasshouse weeds and seeds within the sterilised sand. Emerging plants were counted and removed following identification,or representative samples re-potted to grow on to confirm sample identification. The seedling emergent trial ran from spring 2016 to late autumn (242 days).

Presentation form

Table digital

Edition

Original (raw data)

Dataset language

English

Dataset URI

https://datasets.seed.nsw.gov.au/dataset/fe9648f9-3fbd-42d9-b88c-ed9e8caad655

Purpose

Decision support

Status

Completed

Spatial representation type

None

Spatial reference system

Originating controlled vocabulary

Dataset reference date

Responsible party

Metadata point of contact

Metadata date

2024-02-26T13:49:51.781621

Metadata language