Skip to main content

International Journal of Landscape Research

This journal is published from Landscape Research Group and Taylor and Francis.
Six issues are published per year.The 2012 Impact Factor of the journal is 0.580 and 5 year Impact Factor is 0.98.

The journal accepts papers from the landscaping and agriculture fraternity.Some example papers are provided below :

1.Visual Perception of Agricultural Cultivated Landscapes: Key Components as Predictors for Landscape Preferences
2.Landowners' Participation in Biodiversity Conservation Examined through the Value-Belief-Norm Theory
3.Key concepts in a framework for analyzing visual landscape character

etc.

The journal is inclined towards papers which involves social perception in their landscaping projects.

According to journal home page their research topics of interest includes :
  • environmental design
  • countryside management
  • ecology and environmental conservation
  • land surveying
  • human and physical geography
  • behavioural and cultural studies
  • archaeology and history
The aim and scope as given in the journal page is :

Landscape Research , the journal of the Landscape Research Group, has become established as one of the foremost journals in its field. Landscape Research is distinctive in combining original research papers with reflective critiques of landscape practice. Contributions to the journal appeal to a wide academic and professional readership, and reach an interdisciplinary and international audience. Whilst unified by a focus on the landscape, the coverage of Landscape Research is wide ranging.

The journal is open to submission of new research papers related to the journal .Here is the link :

The journal is indexed in :(According to home page)
Agricultural Engineering Abstracts; Agroforestry Abstracts; Applied Ecology Abstracts; Aquatic Sciences& Fisheries Abstracts; B H A Bibliography of the History of Art; Biological Abstracts; British & Irish Archaeological Bibliography; CAB Abstracts; Current Abstracts; Current Contents; Dairy Science Abstracts; Dietrich's Index Philosophicus; EBSCOhost (Adanced Placement Source, Associates Programs Source, Associates Programs Source Plus, Business Source Alumni Edition, Business Source Complete, Business Source Corporate, Business Source Premier, MegaFILE, Environment Complete, TOC Premier, Vocational Studies Complete, Vocational Studies Premier); Ecology Abstracts; Environment Abstracts; Environment Index, Environmental Periodicals Bibliography, Environmental Sciences and Pollution Management; Forestry Abstracts; Garden, Landscape & Horticulture Index; Garden Literature; GeoAbstracts; GEOBASE; GeoRef; Global Health; Grasslands and Forage Abstracts; IBZ/IBR; Irrigation and Drainage Abstracts; Landscape Design; Leisure, Recreation and Tourism Abstracts; ProQuest (Academic Research Library, 5000 International, Career and Technical Education, Central, Direct 5000); Rural Development Abstracts; SCOPUS; Social Sciences Citation Index; Soils and Fertilizers Abstracts; SwetsWise All Titles; Water Resources Abstracts; Weed Abstracts, and World Agricultural Economics and Rural Sociology Abstracts.

Popular posts from this blog

Internship Opportunity at NIT Agartala - "Game theory meets flood resilience: play smart, protect lives."

This internship offers a unique opportunity to apply game theory to real-world flood resilience , equipping participants with strategic decision-making skills that go beyond traditional hydrological modeling. Interns will: ✅ Gain hands-on experience in stakeholder analysis and strategic modeling. ✅ Develop decision-support frameworks that balance cost, risk, and social feasibility. ✅ Work on case studies to bridge theory with practical flood mitigation strategies. ✅ Enhance interdisciplinary expertise , combining hydrology, economics, and policy dynamics. ✅ Build problem-solving skills that can shape future disaster resilience planning. By the end of the program, interns will have a deeper understanding of flood management complexities and a powerful toolkit for strategic problem-solving —essential for careers in hydroinformatics, environmental policy, and infrastructure planning. 🌊🎲 https://www.facebook.com/share/v/1QK714yR1u/ You may also like : HydroGeek: The newsletter ...

Five indices that you can use along with GIS to identify Drought

Drought can not be defined as Flood. No single definition is available for drought. The beginning and end of drought are difficult to identify.  Drought can be, however, identified through various indicators such as rainfall, snowpack, streamflow, and more, and these indicators can be used to monitor drought. Different scientists and researchers have developed various indices to help determine the onset, severity, and end of droughts. Drought indices are multiparameter and based on long or short duration observation of data for such parameters which help them create a comprehensible big picture. A drought index value is typically a single number that is calculated based on the data of input parameters generally rainfall, snowpack, evapotranspiration, etc., and is interpreted on a scale of abnormally wet, average, and abnormally dry.( Reference ) The video below elaborates the concept : Although drought is very difficult to determine the significance of drought in agriculture, water...

Five examples of Water Collected from Air

Video Link :  https://youtu.be/AVQJCH-6psg Water from Air is a new concept for the conservation of water by adopting a source that is uncommon and renewable. The most abundant source of freshwater is the Earth’s atmosphere. When atmospheric humidity condenses, it falls as rain. This natural process of condensation is replicated by adopting different technologies, which allows it to make water continuously, even in low humidity conditions. Here are the examples : 1) Airowater Dewpoint Smart "The Airowater Dewpoint Smart is one of the smaller units designed to ensure portability. This unit can make up to 20 litres per day in relative humidity and is also equipped to use city water as the input source to deal with a sudden increase in demand!" 2) Rainmaker "Rainmaker’s Air-to-Water units produce drinking water from the air – no other water source is required. " It uses a turbine that forces air through a heat exchanger, where the air is cooled and condensation takes pl...