Global road network has expanded at an unprecedented rate in the last century, and is needed for economic and social growth. However, the road networks through forest landscapes open it up for further exploitation and act as permanent scars on these fragile ecosystems. This has driven greater interest in studying ecological impacts of the road networks on forest cover dynamics. Our study assessed changes in forest canopy density (FCD) using satellite-based indices, and forest fragmentation using Morphological Spatial Pattern Analysis (MSPA) for 2000 and 2016 in the Central Himalaya. The analysis reports reduction in areas with high FCD from 85\% of geographical area in 2000 to 76\% in 2016. Specific to road sites, maximum change has taken place owing to expansion of national highway (NH) 72 from two-lane in 2000 to four-lane in 2016. MSPA results also support this argument as forest fragmentation has substantially increased along the road transects, especially NHs and metalled roads. The study asserts that metalled forest roads at lower elevations and closer to the forest periphery have greater detrimental effects on surrounding ecosystems than unmetalled forest roads. Reason being continuous disturbance due to heavy traffic load, ease of accessibility to forest and added anthropogenic disturbances near the periphery. As ecological impacts of road network have not been mainstreamed into research and policy making in Himalaya, the findings from this study shall improve knowledge on the current status and potential future pathways of sustainable infrastructure development in Himalaya in particular and mountains around the globe in general. © 2018 Elsevier B.V.

Mann D.

Agrawal G.

Joshi P.K.

<p>Shiv Nadar University is a comprehensive, multidisciplinary, research-focused, and student-centric University offering a full range of academic programs at the undergraduate, postgraduate and doctoral level. With state-of-the-art infrastructure, the University comprises of academic wings, sophisticated labs, international standard sports facilities, amphitheaters, auditorium, conference rooms and smart classrooms. The University&rsquo;s goal is to become internationally recognized for the quality of its research and creative endeavors and their applicability to improving quality of life, generating new insights and expanding the boundaries of human knowledge creativity. Committed to excellence in teaching, research and service, the University aims to serve the higher education needs of India and the world beyond.</p>

Shiv Nadar University

Ecological Engineering

<p>Road networks are permanent manmade features altering the landscape structure and subsequently influence regional landscape ecology. Taking south-western foothills of Central Himalaya, as a case, this study assessed the spatio-temporal variations in landscape structure and landscape ecological risk (LER) influenced by the road network and topography. The relationship between LER and accessibility factors (distance to different road-types and road kernel density) and topographical factors (elevation and slope) were explored using ordinary least square (OLS) regression and geographically weighted regression (GWR) model. Our results indicate that high-risk LER zones are closer to the road network. This is also in conjunction with increasing built-up areas adjacent to the road network. Regression analysis using GWR model better explained the relationship between LER (dependent variable) and distance from different road-types (independent variables) as compared to OLS with a significant correlation at 1\% confidence interval. The spatial variations in the interrelation between dependent and independent variables were explained using quantified coefficients estimated by the GWR model. The estimation and visualization of spatial associations between landscape structure, LER, and road network provided in our study can act as a baseline for developing a guideline for sustainable infrastructure development and management of ecologically vulnerable landscapes across the tropical world. © 2020 Taylor &amp; Francis Group, LLC.</p>

Human and Ecological Risk Assessment

Spatio-temporal variations in landscape ecological risk related to road network in the Central Himalaya

This study investigates spatio-temporal paradigm of the impact of road networks on urban ecosystem dynamics (UED) by analysing the composition and configuration of land use land cover (LULC) and land surface temperatures (LST) derived from Landsat data for the years 2000 and 2017. The results indicate a positive association between road network and built-up land showing higher concentration of built-up land closer to the road network. This increase in grey infrastructure has led to an increase in the maximum LST by 6 °C to 7.5 °C along primary and tertiary roads, whereas 4 °C to 5 °C along secondary roads. Rapid intensification of road network along with the associated disproportionate changes in LULC and LST are deemed to be the major contributors to UED. Findings from this study will serve as baseline for examining the influence of road network on regional urban growth and assist in sustainable road infrastructure planning. © 2020, © 2020 Informa UK Limited, trading as Taylor & Francis Group.

Geocarto International

Road network drives urban ecosystems - a longitudinal analysis of impact of roads in the central Himalaya

Analysis of urban dynamics is a pivotal step towards understanding landscape changes and developing scientifically sound urban management strategies. Delineating the patterns and processes shaping the evolution of urban regions is an essential part of this step. Utilizing remote-sensing techniques and Geographic Information System (GIS) tools, we performed an integrated analysis on urban expansion in Srinagar city and surrounding areas from 1999 to 2017 at multiple scales in order to assist urban planning initiatives. To capture various spatial indicators of expansion, we analysed (i) land use/land cover (LULC) changes, (ii) rate and intensity of changes to built-up areas, (iii) spatial differentiation in landscape metrics (at 500, 1000 and 2000 m cell-size), and (iv) growth type of the urban expansion. Global Moran's I statistics and local indicators of spatial association (LISA) were also employed to identify hotspots of change in landscape structure. Our methodology utilizes a range of geovisualization tools which are capable of appropriately addressing various elements required for strategic planning in growing cities. The results highlight aggregation and homogenization of the urban core as well as irregularity and fragmentation in its periphery. A combination of spatial metrics and growth type analysis supports the supposition that there is a continuum in the diffusion-coalescence process. This allows us to extend our understanding of urban growth theory and to report deviations from accepted stages of growth. As our results show, each dominating growth phase of the city-both diffusion (1999) and coalescence (2009 and 2017)-is interspersed with features from the other type. An improved understanding of spatial differentiation and the identification of hotspots can serve to make urban planning more tailored to such local conditions. Animportant insight derived from the results is the applicability of remote-sensing data in urban planning measures and the usefulness of freely available medium resolution data in gaining a comprehensive understanding of the evolution of cities. © 2020 by the authors.

Fulltext

Remote Sensing

Assessment of urban dynamics to understand spatiotemporal differentiation at various scales using remote sensing and geospatial tools

Science of The Total Environment

Effects of road network on diversiform forest cover changes in the highest coverage region in China: An analysis of sampling strategies

Wiley StatsRef: Statistics Reference Online

Probability Proportional to Size (PPS) Sampling

PLOS ONE

A Spatial Probit Econometric Model of Land Change: The Case of Infrastructure Development in Western Amazonia, Peru

International Journal of Remote Sensing

Relative quantity and allocation disagreement measures for category-level accuracy assessment

Proceedings of the Royal Society B: Biological Sciences

Road networks predict human influence on Amazonian bird communities

Spatio-temporal forest cover dynamics along road networks in the Central Himalaya