scholarly journals Patterns and trends of topsoil carbon in the UK: Complex interactions of land use change, climate and pollution

2020 ◽  
Vol 729 ◽  
pp. 138330 ◽  
Author(s):  
A. Thomas ◽  
B.J. Cosby ◽  
P. Henrys ◽  
B. Emmett
Keyword(s):  
Land Use ◽  
Land Use Change ◽  
Complex Interactions ◽  
Change Climate ◽  
The Uk

scholarly journals A dampened land use change climate response towards the tropics

2011 ◽  
Vol 37 (9-10) ◽  
pp. 2035-2043 ◽  
Author(s):  
M. K. van der Molen ◽  
B. J. J. M. van den Hurk ◽  
W. Hazeleger
Keyword(s):  
Land Use ◽  
Land Use Change ◽  
Climate Response ◽  
Change Climate ◽  
The Tropics

Potential effects of future land-use change on regional carbon stocks in the UK

2011 ◽  
Vol 14 (1) ◽  
pp. 40-52 ◽  
Author(s):  
Elena Cantarello ◽  
Adrian C. Newton ◽  
Ross A. Hill
Keyword(s):  
Land Use ◽  
Land Use Change ◽  
Carbon Stocks ◽  
The Uk

scholarly journals Livestock, land use change, and environmental outcomes in the developing world

2004 ◽  
Vol 33 ◽  
pp. 133-153
Author(s):  
R.W. Blake ◽  
C.F. Nicholson
Keyword(s):  
Land Use ◽  
Land Use Change ◽  
Dairy Products ◽  
Developing World ◽  
Consumer Demand ◽  
Poultry Meat ◽  
Animal Products ◽  
Animal Agriculture ◽  
Demand Growth ◽  
Complex Interactions

Rapid predicted worldwide growth in demand for animal products to 2020, the so-called “next food revolution” in animal agriculture, portends complex interactions among people, biological and geophysical resources, and economic objectives. Consumer demand for beef and pork is expected to increase by 2.8% per year, somewhat slower than demand growth for poultry meat (3.1%/yr). Demand for dairy products is predicted to grow fastest, at 3.3%/yr (Delgado et al., 1999).

scholarly journals An overview of forest management and change with respect to environmental protection in the UK

2004 ◽  
Vol 8 (3) ◽  
pp. 279-285 ◽  
Author(s):  
R. A. Farmer ◽  
T. R. Nisbet
Keyword(s):  
Land Use ◽  
Forest Management ◽  
Land Use Change ◽  
Environmental Protection ◽  
Best Practice ◽  
Sustainable Forestry ◽  
Forest Planning ◽  
Challenges And Opportunities ◽  
Future Challenges ◽  
The Uk

Abstract. This paper overviews changes in forest management in the UK with respect to environmental protection. The evolution of policy is explained from historical and sustainability perspectives and covers developments in forest planning, accreditation, devolution and future challenges and opportunities. Keywords: forest management, best practice, sustainable forestry, environmental protection, land use change

scholarly journals Modeling the Production of Multiple Ecosystem Services from Agricultural and Forest Landscapes in Rhode Island

2013 ◽  
Vol 42 (1) ◽  
pp. 251-274 ◽  
Author(s):  
Tingting Liu ◽  
Nathaniel H. Merrill ◽  
Arthur J. Gold ◽  
Dorothy Q. Kellogg ◽  
Emi Uchida
Keyword(s):  
Climate Change ◽  
Land Use ◽  
Ecosystem Services ◽  
Land Use Change ◽  
Rhode Island ◽  
Land Management ◽  
Management Practices ◽  
Watershed Scale ◽  
River Watershed ◽  
Change Climate

This study spatially quantifies hydrological ecosystem services and the production of ecosystem services at the watershed scale. We also investigate the effects of stressors such as land use change, climate change, and choices in land management practices on production of ecosystem services and their values. We demonstrate the approach in the Beaver River watershed in Rhode Island. Our key finding is that choices in land use and land management practices create tradeoffs across multiple ecosystem services and the extent of these tradeoffs depends considerably on the scenarios and ecosystem services being compared.

Holocene land-use change and its impact on river basin dynamics in Great Britain and Ireland

2006 ◽  
Vol 30 (5) ◽  
pp. 589-604 ◽  
Author(s):  
Simon A. Foulds ◽  
Mark G. Macklin
Keyword(s):  
Land Use ◽  
Great Britain ◽  
Land Use Change ◽  
Human Impacts ◽  
River Basins ◽  
Sediment Supply ◽  
Valley Floor ◽  
Anthropogenic Activity ◽  
The Uk ◽  
The Impact

River basins in Great Britain and Ireland have been characterized by periods of hillslope and valley floor instability during the Holocene, reflecting sensitivity to both climate change and anthropogenic disturbance. In contrast to climatic controls, which have been relatively well documented, human impacts on and interactions with river basins remain unclear. There is now, however, a growing impetus to elucidate more fully the impact of anthropogenic activity on sediment supply and runoff, given that land-use change is thought to have exacerbated recent flooding in the UK (eg, the ‘Millennium'floods of 2000). The aim of this paper is to critically review the significance of Holocene land use on hillslope and valley floor stability in Great Britain and Ireland. The most widely reported impacts of land-use change on geomorphic activity include hillslope erosion and gully development, valley floor alluviation, river channel incision and elevated water tables. In the majority of cases, however, causal relationships are difficult to establish, due primarily to inadequate dating control. Even where geomorphic instability can be linked to land-use change, it is apparent that eroded material is often stored as colluvium, which together with evidence of diachronus hillslope and valley floor instability, raises important questions and identifies uncertainties regarding the dynamics and extent of sediment transfer within river basins. Such uncertainty has important implications for understanding how river basins will behave in response to future environmental change.

Land-Use Change, Climate and Hydrology

2003 ◽  
pp. 139-165
Author(s):  
E. J. Moors ◽  
A. J. Dolman
Keyword(s):  
Land Use ◽  
Land Use Change ◽  
Change Climate

Carbon storage in soils and plant biomass under future climate and land use pressures

2021 ◽  
Author(s):  
Dmitry Yumashev ◽  
Victoria Janes-Bassett ◽  
John Redhead ◽  
Ed Rowe ◽  
Jessica Davies
Keyword(s):  
Climate Change ◽  
Land Use ◽  
Land Use Change ◽  
Large Scale ◽  
Fossil Fuels ◽  
Management Practices ◽  
Plant Biomass ◽  
Local Evidence ◽  
The Face ◽  
The Uk

<p>It is widely accepted in the scientific, business and policy communities that meeting the Paris Agreement targets will require a large-scale deployment of negative emission technologies and practices. As a result, nature-based climate solutions, including carbon sequestration (Cseq) in soils and forests, have received much attention in the literature recently. Several national and global assessments have identified considerable potential for terrestrial Cseq, while other studies have raised doubts regarding its practical limits in the face of the likely future pressures from climate change and land use change. In general, the existing Cseq assessments lack sensitivity to climate change, perspective on local land use and nutrient limitations. Accounting for these factors requires process-based modelling, and is feasible only at national to regional scales at present, underpinned by a wide body of local evidence. Here, we apply an integrated terrestrial C-N-P cycle model (N14CP) with representative ranges of high-resolution climate and land use scenarios to estimate Cseq potential in temperate regions, using the UK as a national-scale example. Meeting realistic UK targets for grassland restoration and forestation over the next 30 years is estimated to sequester an additional 120 TgC by 2100 (similar to current annual UK greenhouse gas emissions), conditional on climate change of <2°C. Conversely, UK arable expansion would reduce Cseq by a similar magnitude, while alternative arable management practices such as extensive rotations with grass leys would have a comparatively small effect on country-wide Cseq outcomes. Most importantly, the simulations suggest that warmer climates will cause net reductions in Cseq as soil carbon losses exceed gains from increased plant productivity. Our analysis concludes that concerted land use change can make a moderate contribution to Cseq, but this is dependent on us cutting emissions from fossil fuels, soil degradation and deforestation in line with a <2°C pathway.</p>

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