ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

Electronic Resource

Heat of Reaction of Nitrogen Trifluoride with Elemental Boron. (1963)

Ludwig, John R. ; Cooper, W. J.

s.l. : American Chemical Society

Journal of chemical & engineering data 8 (1963), S. 76-77

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ISSN: 1520-5134

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology , Process Engineering, Biotechnology, Nutrition Technology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/je60016a022

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2

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Book Review (2003)

Ludwig, John A.

Oxford, UK : Blackwell Science Pty

Austral ecology 28 (2003), S. 0

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ISSN: 1442-9993

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1442-9993.2003.01278.x

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3

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Monitoring ecological indicators of rangeland functional integrity and their relation to biodiversity at local to regional scales (2004)

LUDWIG, JOHN A. ; TONGWAY, DAVID J. ; BASTIN, GARY N. ; [et al.]

Oxford, UK : Blackwell Science, Ltd

Austral ecology 29 (2004), S. 0

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ISSN: 1442-9993

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract Functional integrity is the intactness of soil and native vegetation patterns and the processes that maintain these patterns. In Australia's rangelands, the integrity of these patterns and processes have been modified by clearing, grazing and fire. Intuitively, biodiversity should be strongly related to functional integrity; that is, landscapes with high functional integrity should maintain biodiversity, and altered, less functional landscapes may lose some biodiversity, defined here as the variety and abundance of the plants, animals and microorganisms of concern. Simple indicators of biodiversity and functional integrity are needed that can be monitored at a range of scales, from fine to coarse. In the present paper, we use examples, primarily from published work on Australia's rangeland, to document that at finer patch and hillslope scales several indicators of landscape functional integrity have been identified. These indicators, based on the quantity and quality of vegetation patches and interpatch zones, are related to biodiversity. For example, a decrease in the cover and width (quantity) and condition (quality) of vegetation patches, and an increase in bare soil (quantity of interpatch) near cattle watering points in a paddock are significantly related to declines in plant and grasshopper diversity. These vegetation patch-cover and bare-soil indicators have been monitored traditionally by field-based methods, but new high-resolution, remote-sensing imagery can be used in specific rangeland areas for this fine-scale monitoring. At intermediate paddock and small watershed scales, indicators that can be derived from medium-resolution remote-sensing are also needed for efficient monitoring of rangeland condition (i.e. functional integrity) and biodiversity. For example, 30–100-m-pixel Landsat imagery has been used to assess the condition of rangelands along grazing gradients extending from watering-points. The variety and abundance of key taxa have been related to these gradients (the Biograze project). At still larger region and catchment scales, indicators of rangeland functional integrity can also be monitored by coarse-resolution remote-sensing and related to biodiversity. For example, the extent and greenness (condition) of different regional landscapes have been monitored with 1-km-pixel satellite imagery. This regional information becomes more valuable when it indicates differences as a result of land management. Finally, we discuss potential future developments that could improve proposed indicators of landscape functional integrity and biodiversity, thereby improving our ability to monitor rangelands effectively.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1442-9993.2004.01349.x

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4

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A Scaling Rule for Landscape Patches and How It Applies to Conserving Soil Resources in Savannas (2000)

Ludwig, John A. ; Wiens, John A. ; Tongway, David J.

Springer

Ecosystems 3 (2000), S. 84-97

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ISSN: 1435-0629

Keywords: Key words: landscape ecology; land-use disturbances; resource conservation; resource patches; scaling equations; scaling functions; soil conservation; soil nitrogen.

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: ABSTRACT Scaling issues are complex, yet understanding issues such as scale dependencies in ecological patterns and processes is usually critical if we are to make sense of ecological data and if we want to predict how land management options, for example, are constrained by scale. In this article, we develop the beginnings of a way to approach the complexity of scaling issues. Our approach is rooted in scaling functions, which integrate the scale dependency of patterns and processes in landscapes with the ways that organisms scale their responses to these patterns and processes. We propose that such functions may have sufficient generality that we can develop scaling rules—statements that link scale with consequences for certain phenomena in certain systems. As an example, we propose that in savanna ecosystems, there is a consistent relationship between the size of vegetation patches in the landscape and the degree to which critical resources, such as soil nutrients or water, become concentrated in these patches. In this case, the features of the scaling functions that underlie this rule have to do with physical processes, such as surface water flow and material redistribution, and the ways that patches of plants physically “capture” such runoff and convert it into plant biomass, thereby concentrating resources and increasing patch size. To be operationally useful, such scaling rules must be expressed in ways that can generate predictions. We developed a scaling equation that can be used to evaluate the potential impacts of different disturbances on vegetation patches and on how soils and their nutrients are conserved within Australian savanna landscapes. We illustrate that for a 10-km2 paddock, given an equivalent area of impact, the thinning of large tree islands potentially can cause a far greater loss of soil nitrogen (21 metric tons) than grazing out small grass clumps (2 metric tons). Although our example is hypothetical, we believe that addressing scaling problems by first conceptualizing scaling functions, then proposing scaling rules, and then deriving scaling equations is a useful approach. Scaling equations can be used in simulation models, or (as we have done) in simple hypothetical scenarios, to collapse the complexity of scaling issues into a manageable framework.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100210000012

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5

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Spatial organisation of landscapes and its function in semi-arid woodlands, Australia (1995)

Ludwig, John A. ; Tongway, David J.

Springer

Landscape ecology 10 (1995), S. 51-63

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ISSN: 1572-9761

Keywords: Landscapes ; organisation ; patches ; processes ; scale ; function ; semi-arid woodlands

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The spatial organisation of three major landscape types within the semi-arid woodlands of eastern Australia was studied by a detailed analysis of gradient-oriented transects (gradsects). The aim was to characterise the spatial organisation of each landscape, and to account for that organisation in functional terms related to the differential concentration of scarce resources by identifiable processes. Terrain, vegetation and soils data were collected along each gradsect. Boundary analysis was used to identify the types of landscape units at a range of scales. Soil analyses were used to determine the degree of differential concentration of nutrients within these units, and to infer the role of fluvial and aeolian processes in maintaining them. All three major landscape systems were found to be highly organised systems with distinctive resource-rich units or patches separated by more open, resource-poor zones. At the largest scale, distinct groves of trees were separated by open intergroves. At smaller-scales, individual trees, large shrubs, clumps of shrubs, fallen logs and clumps of grasses constituted discrete patches dispersed across the landscape. Our soil analyses confirmed that these patches act as sinks by filtering and concentrating nutrients lost from source areas (e.g., intergroves). We suggest that fluvial runoff-runon and aeolian saltation-deposition are the physical processes involved in these concentration effects, and in building and maintaining patches; biological activities also maintain patches. This organisation of patches as dispersed resource filters (at different scales) has the overall function of conserving limited resources within semi-arid landscape systems. Understanding the role of landscape patchiness in conserving scarce resources has important implications for managing these landscapes for sustainable land use, and for the rehabilitation of landscapes already degraded.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00158553

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6

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Fine-scale vegetation patches decline in size and cover with increasing rainfall in Australian savannas (1999)

Ludwig, John A. ; Tongway, David J. ; Eager, Robert W. ; [et al.]

Springer

Landscape ecology 14 (1999), S. 557-566

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ISSN: 1572-9761

Keywords: ground-layer ; landscape function ; patch spacing ; runoff ; soil texture ; tree-layer

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Fine-scale vegetation patches (〈5 m in width) are critically important in many landscapes because they function to obstruct surface flows of water and wind. These obstructions increase the infiltration of runoff and the capture of nutrients in runoff sediments and in wind-blown soil and litter. The importance of redistribution of runoff into runon patches from spaces between patches (fetches) is likely to be greater in drier than in wetter environments. In this paper we examine the hypothesis that the ratio of fetch to patch decreases as rainfall increases, and that this trend will be most evident on intermediate-textured soils because these soils are more prone to runoff. We measured fine-scale patches on 38 sites with sand, loam or clay soils. Sites were located along a 1000-mm rainfall gradient in the savannas of northern Australia. The width and intercept length of patches and the fetch between patches was measuring along line transects of 100–120 m oriented down slope. We found that the ratio of fetch to patch area did not decrease with decreasing rainfall, but increased on both sand and loam soils. This result was because with increasing rainfall mean spacing between patches disproportionally increased while mean patch size and cover declined. The cover of patches was negatively correlated with tree canopy cover, which significantly increased with rainfall. This negative correlation suggests that in higher rainfall savannas the size and spacing of ground-layer patches is controlled by the tree layer, and that as rainfall decreases this control decreases and runoff-runon processes increasingly structure the landscape. For savannas on clay soils these trends were not significant except that on the highest rainfall sites the cover of ground-layer patches was nearly 100% while trees were absent.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008112122193

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7

Electronic Resource

Desertification in Australia: An eye to grass roots and landscapes (1995)

Ludwig, John A. ; Tongway, David J.

Springer

Environmental monitoring and assessment 37 (1995), S. 231-237

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ISSN: 1573-2959

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Desertification in some form is estimated to have occurred over about 42% of the 5 million km2 of arid and semiarid lands in Australia. The most common form of desertification is loss of perennial grasses from grasslands, savannas, and open woodlands, often with a replacement by inedible shrubs. Desertification continues to be a problem, especially during droughts when grazing pressures reduce ground cover, laying bare landscapes to wind and water erosion. But two national programs, Drought Alert and Landcare, are giving new hope in controlling land degradation. Both use a grassroots approach by promoting action through local pastoralist and farmer groups and by encouraging the use of effective techniques for rehabilitating landscapes. A strategic application of ponding banks and contour traps with an eye to the landscape has proven successful in stopping and reversing desertification processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00546891

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8

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Monitoring Australian Rangeland Sites Using Landscape Function Indicators and Ground- and Remote-Based Techniques (2000)

Ludwig, John A. ; Bastin, Gary N. ; Eager, Robert W. ; [et al.]

Springer

Environmental monitoring and assessment 64 (2000), S. 167-178

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ISSN: 1573-2959

Keywords: aerial videography ; ecological indicators ; landscape ecology ; monitoring techniques ; remote sensing ; tropical savannas

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract If the goal for managing rangelands is to achieve a balance between production and conservation, then monitoring is essential to detect change and apply corrective action. In some range-land areas of northern Australia, monitoring has detected a tilt in the production-conservation balance towards excessive production. How big is this imbalance? Can it shift back? Robust monitoring is needed to answer these questions. The aim is to know what to monitor, and where. For example, to detect changes caused by livestock on rangeland forage production and soil erosion, indicators linking grazing disturbances to landscape function are needed, that is, indicators that signal how well landscapes are capturing, concentrating, and utilizing scarce water, nutrient, and organic resources. Studies in Australia and the USA document that simple vegetation and soil patch attributes can be measured as indicators of the 'state of health' of landscape function. For example, field and remote sensing-based grazing studies in Australia document that landscapes with a high cover of perennial plant patches function effectively to capture runoff water and nutrients in sediments, whereas landscapes with a low cover of these patches do not — they are dysfunctional — as indicated by large patches of bare soil. Aerial videography is proving to be a robust technique for measuring indicators of landscape function such as small patches of vegetation and the extent of bare soil. These indicators typically have a sigmoidal response to grazing impacts. We illustrate that if these indicators are measured on monitoring sites established near the sigmoidal 'point of inflection’ then small changes in these indicators can be detected.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006475825546

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9

Electronic Resource

A comparison of paired- with blocked-quadrat variance methods for the analysis of spatial pattern (1978)

Ludwig, John A. ; Goodall, David W.

Springer

Plant ecology 38 (1978), S. 49-59

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ISSN: 1573-5052

Keywords: Block size ; Blocked-quadrats ; Methodology ; Paired-quadrats ; Plant dispersion ; Quadrat spacing ; Spatial pattern ; Variances

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary For the description of patterns in data from quadrats arranged in a belt or grid, a new ‘paired-quadrat variance’ (PQV) method is introduced. This and other published methods were applied to artificial data with known patterns and to two sets of field data. Hypotheses formed by other methods about patterns shown in the field data are tested by Goodall's method involving ‘random pairing of quadrats to obtain variances’ (RPQV). The advantages of using the PQV method and Hill's new ‘two-term local quadrat variance’ (TTLQV) method over the earlier ‘blocked-quadrat variance’ (BQV) methods are discussed. It is recommended that quadrat data be divided into two subsets, and then the PQV method be applied to one and the RPQV method to the other. This new procedure for spatial pattern analysis would permit the separation of hypothesis formation (by the PQV method) from hypothesis testing (by the RPQV method), and would permit unambiguous significance tests.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00141298

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