How dingoes sculpt the shape of sand dunes in the Australian desert

How dingoes sculpt the shape of sand dunes in the Australian desert — A dingo in the Strzelecki Desert. Credit: Peter Contos

A new study by UNSW scientists has shown how the presence – and absence – of dingoes affects the desert landscape.

Removing predators from an ecosystem can have a domino effect that impacts the geography of the environment and even the pattern of wind and sand movement, a new study by UNSW scientists has shown.

In the Strzelecki Desert in north-west New South Wales, the Dingo Fence is a man-made barrier that has been in the landscape for over a century. The Dingo Fence was built in the 1800s to keep dingoes away from private land and livestock. On the NSW side of the Dingo Fence is Sturt National Park, but dingo culling still occurs, as the animals are considered a pest to livestock producers.

Over the years, the dune fields of the near dingo-free side of the fence have been transformed. Feral fox and cat populations flourished without the competition of a larger predator. In turn the native population of herbivores, such as hopping mice, suffered, and native vegetation cover increased in their absence.

The increased vegetation also altered the patterns of wind flow and sand movement and how the sand settled on the sand dunes. Increased vegetation cover locked down the sand and sediment and allowed the wind to 'flow' over the top, creating taller dune peaks. In contrast, on the South Australia and Queensland side of the fence where dingoes were still present, the sand dunes were generally 'flatter' and not as tall.

"It really demonstrates that removing predators triggers trophic cascades that have these far-reaching implications," says Associate Professor Mike Letnic, who led the UNSW School of Biological Earth and Environmental Sciences research team.

"It extends far beyond a simple predator and prey relationship. It trickles down to even how the wind blows and sand moves in the desert."

"In the absence of dingoes the sand dunes are not only taller but they have different shapes and different roughness properties. It is all interlinked," says Dr. Mitchell Lyons, the lead author of the study. The work was published in the Journal of the Royal Society Interface.

Dr. Lyons introduced drone technology that captured a bird's eye view of the desert landscape. With the footage, the team could view the landscape from above and put a dot on every shrub.

Combining the high-resolution footage with advanced mathematical modelling techniques, Dr. Lyons recreated the desert landscape on both sides of the fence in a detailed 3-D reconstruction.

Dr. Lyons' method made it possible to accurately count the density of shrubs and vegetation and measure the shape of the sand dunes simultaneously with greater efficiency compared to traditional fieldwork.

"The great thing about drone imagery is that it is at such a fine scale," says Dr. Lyons.

"So now you can accurately measure the density of vegetation, the shape of the dunes from the 3-D reconstructions, and then explicitly test their relationship with statistical models."

The researchers then compared the data with historical aerial photos from 1948-1999 to track the environmental change.

A/Professor Letnic has been studying the dingo population in the region for over a decade and could tell that long term culling of dingoes created by the Dingo Fence had triggered something in the desert landscape.

"When you are there, it feels different and it looks different. But it is hard to put your finger on what it is," A/Professor Letnic says.

Drone technology gave solid form to the research team's observations, capturing high resolution images of the region, with a new level of detailed analysis.

A/Prof Letnic continues: "The Dingo Fence made it possible and because there are 100 years of exclusion, it created a study system. We are beginning to appreciate how far reaching the effects of dingoes are in that system by carefully disentangling and documenting all these relationships."

The Dingo Fence is one of the longest structures in the world, stretching for over 5000 kilometres across the Australian continent and straddling the borders of South Australia, New South Wales and Queensland. The Strzelecki Desert is the seventh largest desert in Australia, known for its expansive dune fields. It is also the home to the endangered Hopping Mouse.

Explore further: Dingo fence study shows dingo extermination leads to poorer soil

More information: Mitchell B. Lyons et al. Linking trophic cascades to changes in desert dune geomorphology using high-resolution drone data, Journal of The Royal Society Interface (2018). DOI: 10.1098/rsif.2018.0327

	How dingoes sculpt the shape of sand dunes in the Australian desert
	admin
	2018-07-04
发布年	2018
语种	英语
国家	美国
领域	地球科学
正文(英文)	A dingo in the Strzelecki Desert. Credit: Peter Contos A new study by UNSW scientists has shown how the presence – and absence – of dingoes affects the desert landscape. Removing predators from an ecosystem can have a domino effect that impacts the geography of the environment and even the pattern of wind and sand movement, a new study by UNSW scientists has shown. In the Strzelecki Desert in north-west New South Wales, the Dingo Fence is a man-made barrier that has been in the landscape for over a century. The Dingo Fence was built in the 1800s to keep dingoes away from private land and livestock. On the NSW side of the Dingo Fence is Sturt National Park, but dingo culling still occurs, as the animals are considered a pest to livestock producers. Over the years, the dune fields of the near dingo-free side of the fence have been transformed. Feral fox and cat populations flourished without the competition of a larger predator. In turn the native population of herbivores, such as hopping mice, suffered, and native vegetation cover increased in their absence. The increased vegetation also altered the patterns of wind flow and sand movement and how the sand settled on the sand dunes. Increased vegetation cover locked down the sand and sediment and allowed the wind to 'flow' over the top, creating taller dune peaks. In contrast, on the South Australia and Queensland side of the fence where dingoes were still present, the sand dunes were generally 'flatter' and not as tall. Aerial photo of the dingo-proof fence in the Strzelecki Desert. On the left of the Dingo Fence where there is a low dingo population you can see higher shrub density. This is compared to areas of high dingo population (right) where there is a low to medium shrub density. Credit: Mitchell Lyons "It really demonstrates that removing predators triggers trophic cascades that have these far-reaching implications," says Associate Professor Mike Letnic, who led the UNSW School of Biological Earth and Environmental Sciences research team. "It extends far beyond a simple predator and prey relationship. It trickles down to even how the wind blows and sand moves in the desert." "In the absence of dingoes the sand dunes are not only taller but they have different shapes and different roughness properties. It is all interlinked," says Dr. Mitchell Lyons, the lead author of the study. The work was published in the Journal of the Royal Society Interface. Dr. Lyons introduced drone technology that captured a bird's eye view of the desert landscape. With the footage, the team could view the landscape from above and put a dot on every shrub. A dingo in the Strzelecki Desert. Credit: Nicholas Chu Combining the high-resolution footage with advanced mathematical modelling techniques, Dr. Lyons recreated the desert landscape on both sides of the fence in a detailed 3-D reconstruction. Dr. Lyons' method made it possible to accurately count the density of shrubs and vegetation and measure the shape of the sand dunes simultaneously with greater efficiency compared to traditional fieldwork. "The great thing about drone imagery is that it is at such a fine scale," says Dr. Lyons. "So now you can accurately measure the density of vegetation, the shape of the dunes from the 3-D reconstructions, and then explicitly test their relationship with statistical models." The Dingo Fence. Credit: Rosemary Hulak The researchers then compared the data with historical aerial photos from 1948-1999 to track the environmental change. A/Professor Letnic has been studying the dingo population in the region for over a decade and could tell that long term culling of dingoes created by the Dingo Fence had triggered something in the desert landscape. "When you are there, it feels different and it looks different. But it is hard to put your finger on what it is," A/Professor Letnic says. Drone technology gave solid form to the research team's observations, capturing high resolution images of the region, with a new level of detailed analysis. A hopping mouse in the Strzelecki Desert. Credit: Matthew Brun A/Prof Letnic continues: "The Dingo Fence made it possible and because there are 100 years of exclusion, it created a study system. We are beginning to appreciate how far reaching the effects of dingoes are in that system by carefully disentangling and documenting all these relationships." The Dingo Fence is one of the longest structures in the world, stretching for over 5000 kilometres across the Australian continent and straddling the borders of South Australia, New South Wales and Queensland. The Strzelecki Desert is the seventh largest desert in Australia, known for its expansive dune fields. It is also the home to the endangered Hopping Mouse. Explore further: Dingo fence study shows dingo extermination leads to poorer soil More information: Mitchell B. Lyons et al. Linking trophic cascades to changes in desert dune geomorphology using high-resolution drone data, Journal of The Royal Society Interface (2018). DOI: 10.1098/rsif.2018.0327
URL	查看原文
来源平台	Science X network
文献类型	新闻
条目标识符	http://119.78.100.173/C666/handle/2XK7JSWQ/115656
专题	地球科学
推荐引用方式 GB/T 7714	admin. How dingoes sculpt the shape of sand dunes in the Australian desert. 2018.

您对该条目有什么异议，请向管理员反馈。
内容：
Email：	*
单位:
验证码：	刷新

您在知识库使用过程中有什么好的想法或者建议可以反馈给我们。
标题：	*
内容：
Email：	*
验证码：	刷新

条目包含的文件
条目无相关文件。

资源环境科技发展态势分析平台