Putting the pieces together: Integration for forest landscape restoration implementation

© 2019 John Wiley & Sons, Ltd. The concept of forest landscape restoration (FLR) is being widely adopted around the globe by governmental, non-governmental agencies, and the private sector, all of whom see FLR as an approach that contributes to multiple global sustainability goals. Originally, FLR was designed with a clearly integrative dimension across sectors, stakeholders, space and time, and in particular across the natural and social sciences. Yet, in practice, this integration remains a challenge in many FLR efforts. Reflecting this lack of integration are the continued narrow sectoral and disciplinary approaches taken by forest restoration projects, often leading to marginalisation of the most vulnerable populations, including through land dispossessions. This article aims to assess what lessons can be learned from other associated fields of practice for FLR implementation. To do this, 35 scientists came together to review the key literature on these concepts to suggest relevant lessons and guidance for FLR. We explored the following large-scale land use frameworks or approaches: land sparing/land sharing, the landscape approach, agroecology, and socio-ecological systems. Also, to explore enabling conditions to promote integrated decision making, we reviewed the literature on understanding stakeholders and their motivations, tenure and property rights, polycentric governance, and integration of traditional and Western knowledge. We propose lessons and guidance for practitioners and policymakers on ways to improve integration in FLR planning and implementation. Our findings highlight the need for a change in decision-making processes for FLR, better understanding of stakeholder motivations and objectives for FLR, and balancing planning with flexibility to enhance social–ecological resilience.The Frank Jackson Foundatio

A922 Sequential measurement of 1 hour creatinine clearance (1-CRCL) in critically ill patients at risk of acute kidney injury (AKI)

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Putting the pieces together: Integration for forest landscape restoration implementation

© 2019 John Wiley & Sons, Ltd. The concept of forest landscape restoration (FLR) is being widely adopted around the globe by governmental, non-governmental agencies, and the private sector, all of whom see FLR as an approach that contributes to multiple global sustainability goals. Originally, FLR was designed with a clearly integrative dimension across sectors, stakeholders, space and time, and in particular across the natural and social sciences. Yet, in practice, this integration remains a challenge in many FLR efforts. Reflecting this lack of integration are the continued narrow sectoral and disciplinary approaches taken by forest restoration projects, often leading to marginalisation of the most vulnerable populations, including through land dispossessions. This article aims to assess what lessons can be learned from other associated fields of practice for FLR implementation. To do this, 35 scientists came together to review the key literature on these concepts to suggest relevant lessons and guidance for FLR. We explored the following large-scale land use frameworks or approaches: land sparing/land sharing, the landscape approach, agroecology, and socio-ecological systems. Also, to explore enabling conditions to promote integrated decision making, we reviewed the literature on understanding stakeholders and their motivations, tenure and property rights, polycentric governance, and integration of traditional and Western knowledge. We propose lessons and guidance for practitioners and policymakers on ways to improve integration in FLR planning and implementation. Our findings highlight the need for a change in decision-making processes for FLR, better understanding of stakeholder motivations and objectives for FLR, and balancing planning with flexibility to enhance social–ecological resilience.The Frank Jackson Foundatio

Spatial-temporal succession of the vegetation in Xishuangbanna, China during 1976-2010: A case study based on RS technology and implications for eco-restoration

The spatial-temporal succession of regional vegetation in Xishuangbanna, China from 1976 to 2010 was studied based on RS technology. The results showed the area fluctuation of main vegetation types in the study area during the research period. There was no great change in the total area of main vegetation, with the fluctuation area ranging from 12,579.84 to 14,698.75 km(2), averaging 13,664.48 km(2) annually, and with the fluctuation ratio between -7.94% and 7.57%. The area of natural vegetation (tropical rainforest, tropical seasonal moist forest, tropical seasonal rainforest, and tropical mountainous evergreen broad-leaved forests) increased at first and gradually decreased afterwards, and the ratio of its distribution area to the total area of main vegetation was featured with an annual decrease, especially in 2005 and 2010. Both the distribution area and ratio of artificial vegetation (Rubber plantation) to the total area of main vegetation were characterized with the tendency of a gradual increase, especially in 2005 and 2010. Thus, the establishment of artificial vegetation (Rubber plantation) not only led to the decrease in natural vegetation (3641.16 km(2)) but also covered 343.66 km(2) of lands for other uses. The results also showed the distribution succession of main vegetation types in the study area during the research period. In the later research period (after 1999), compared with the early research period (before 1999), the distribution range of natural vegetation was characterized with a certain decrease in the following aspects as at different altitudes (1400m), and on different slopes (0-5 degrees, 5-8 degrees, 8-15 degrees, 15-25 degrees, 25-35 degrees, and >35 degrees). By contrast, the artificial vegetation was just the opposite whose distribution range was characterized with a tendency of a rapid growth at different altitudes, and on different slopes. It indicated that the establishment of artificial vegetation had broken the original ecological pattern in Xishuangbanna, which would bring direct threats to the regional ecological security and environment healthy development, thus countermeasures were urgent to be taken in order to prevent it from worsening. (C) 2014 Elsevier B.V. All rights reserved.The spatial-temporal succession of regional vegetation in Xishuangbanna, China from 1976 to 2010 was studied based on RS technology. The results showed the area fluctuation of main vegetation types in the study area during the research period. There was no great change in the total area of main vegetation, with the fluctuation area ranging from 12,579.84 to 14,698.75 km(2), averaging 13,664.48 km(2) annually, and with the fluctuation ratio between -7.94% and 7.57%. The area of natural vegetation (tropical rainforest, tropical seasonal moist forest, tropical seasonal rainforest, and tropical mountainous evergreen broad-leaved forests) increased at first and gradually decreased afterwards, and the ratio of its distribution area to the total area of main vegetation was featured with an annual decrease, especially in 2005 and 2010. Both the distribution area and ratio of artificial vegetation (Rubber plantation) to the total area of main vegetation were characterized with the tendency of a gradual increase, especially in 2005 and 2010. Thus, the establishment of artificial vegetation (Rubber plantation) not only led to the decrease in natural vegetation (3641.16 km(2)) but also covered 343.66 km(2) of lands for other uses. The results also showed the distribution succession of main vegetation types in the study area during the research period. In the later research period (after 1999), compared with the early research period (before 1999), the distribution range of natural vegetation was characterized with a certain decrease in the following aspects as at different altitudes (1400m), and on different slopes (0-5 degrees, 5-8 degrees, 8-15 degrees, 15-25 degrees, 25-35 degrees, and >35 degrees). By contrast, the artificial vegetation was just the opposite whose distribution range was characterized with a tendency of a rapid growth at different altitudes, and on different slopes. It indicated that the establishment of artificial vegetation had broken the original ecological pattern in Xishuangbanna, which would bring direct threats to the regional ecological security and environment healthy development, thus countermeasures were urgent to be taken in order to prevent it from worsening. (C) 2014 Elsevier B.V. All rights reserved