| What can climate services learn from theory and practice of co-production? |
22 |
| Toward a multi-faceted conception of co-production of climate services |
19 |
| Do climate services make a difference? A review of evaluation methodologies and practices to assess the value of climate information services for farmers: Implications for Africa |
18 |
| Sectoral use of climate information in Europe: A synoptic overview |
18 |
| Global crop yield forecasting using seasonal climate information from a multi-model ensemble |
14 |
| What have we learnt from EUPORIAS climate service prototypes? |
13 |
| The CORDEX.be initiative as a foundation for climate services in Belgium |
12 |
| Seasonal predictions of Fire Weather Index: Paving the way for their operational applicability in Mediterranean Europe |
12 |
| Dynamical and statistical downscaling of seasonal temperature forecasts in Europe: Added value for user applications |
11 |
| The role of climate services in agricultural productivity in Ghana: The perspectives of farmers and institutions |
11 |
| Introducing design in the development of effective climate services |
10 |
| The match between climate services demands and Earth System Models supplies |
8 |
| Climate services in Africa: Re-imagining an inclusive, robust and sustainable service |
8 |
| Potential effects of climate change on riparian areas, wetlands, and groundwater-dependent ecosystems in the Blue Mountains, Oregon, USA |
7 |
| Effects of climate change on hydrology and water resources in the Blue Mountains, Oregon, USA |
7 |
| Predictability of seasonal precipitation across major crop growing areas in Colombia |
7 |
| Adjusting climate model bias for agricultural impact assessment: How to cut the mustard |
7 |
| Assessment of the use of Participatory Integrated Climate Services for Agriculture (PICSA) approach by farmers to manage climate risk in Mali and Senegal |
6 |
| A comparison of hydrological climate services at different scales by users and scientists |
6 |
| PannEx: The Pannonian Basin Experiment |
6 |
| Response of southern African vegetation to climate change at 1.5 and 2.0 degrees global warming above the pre-industrial level |
6 |
| The ECOMS User Data Gateway: Towards seasonal forecast data provision and research reproducibility in the era of Climate Services |
6 |
| The land management tool: Developing a climate service in Southwest UK |
6 |
| Simulating vegetation response to climate change in the Blue Mountains with MC2 dynamic global vegetation model |
5 |
| Effects of projected climate change on vegetation in the Blue Mountains ecoregion, USA |
5 |
| Does it matter if people think climate change is human caused? |
5 |
| Informing climate services in Africa through climate change risk perceptions |
5 |
| Dynamical and statistical downscaling of a global seasonal hindcast in eastern Africa |
5 |
| Simulation of flood hazard and risk in the Danube basin with the Future Danube Model |
5 |
| Fit for purpose? Transforming National Meteorological and Hydrological Services into National Climate Service Centers |
5 |
| Seasonal variability and predictability of agro-meteorological indices: Tailoring onset of rainy season estimation to meet farmers' needs in Ghana |
5 |
| An investigation of the effects of PICSA on smallholder farmers' decision-making and livelihoods when implemented at large scale - The case of Northern Ghana |
4 |
| Who is 'the user' of climate services? Unpacking the use of national climate scenarios in Switzerland beyond sectors, numeracy and the research-practice binary |
4 |
| Climate change impact on West African rivers under an ensemble of CORDEX climate projections |
4 |
| From generating to using climate services - How the EU-MACS and MARCO projects help to unlock the market potential |
4 |
| Recommendation domains to scale out climate change adaptation in cocoa production in Ghana |
4 |
| Need for a common typology of climate services |
4 |
| How can co-creation improve the engagement of farmers in weather and climate services (WCS) in India |
3 |
| Sensitivity of large dengue epidemics in Ecuador to long-lead predictions of El Nino |
3 |
| A systematic approach to assess climate information products applied to agriculture and food security in Guatemala and Colombia |
3 |
| Evaluating the added value of the new Swiss climate scenarios for hydrology: An example from the Thur catchment |
2 |
| Adaptation strategies and approaches for forested watersheds |
2 |
| Harnessing diverse knowledge and belief systems to adapt to climate change in semi-arid rural Africa |
2 |
| Adapting to the effects of climate change on natural resources in the Blue Mountains, USA |
2 |
| Collaborative Risk Informed Decision Analysis: A water security case study in the Philippines |
2 |
| Communities of practice: One size does not fit all |
2 |
| Advancing climate services for the European renewable energy sector through capacity building and user engagement |
2 |
| Dynamical downscaling of GloSea5 over Ethiopia |
1 |
| Exploring constraints on the realised value of a forecast-based climate service |
1 |
| Evaluation of regional climate services: Learning from seasonal-scale examples across the Americas |
1 |
