Water is an essential resource for manufacturing and domestic use. Since the beginning of the 21st century, China has been experiencing rapid urbanization and unprecedented urban expansion. However, aquatic ecosystems are facing a series of challenges, including dehydration, pollution, eutrophication, and reduction in the number of aquatic species. Conflicts are emerging between urban development and water resources management. The 13th Five-Year Plan for Economic and Social Development of the People’s Republic of China addressed the need for establishing systems to manage water resources and build a water-conserving society. The integration of water resources management into urban spatial planning system has become a critical issue attracting considerable attention from policymakers and researchers.Balancing urban growth and environmental protection is an important consideration while performing urban spatial planning and framing urban policies. There is considerable research discussing strategies to manage the scale and spatial patterns of urban areas to control urban sprawl and protect arable land, wild animals, and plants. Policy recommendations emerging from this research, such as urban growth boundaries and ecological protection red lines, aim to protect important and sensitive ecological areas from being affected by urban expansion. However, urban development impacts aquatic ecosystems not only because of urban growth but also due to the increasing demand for water resources. We should consider both ecologically sensitive areas as well as their water carrying capacity when devising regional or urban plans. The reformed territory spatial planning system started to take water carry capacities and aquatic ecological areas into consideration comprehensively. However, given the characteristics of water resources and ecosystems varies across the country, we still have limited knowledge on the plan-making strategies of the water-shortage cities or regions in northern China. Therefore, this study aims to explore urban growth management strategies that integrate water resource management and environmental protection of aquatic ecosystems in the context of the water-shortage areas in northern China. The outcomes of the study can provide insights for ecological urban planning theories and improve plan-making skills. This thesis includes two parts: a theoretical study and an empirical study.The theoretical study has three sections. First, this study reviews literature on urban growth management and growth boundary policies to identify the research questions and study methods. Then, this thesis establishes the concept of urban growth management based on the relationships between urban development, water resources, and aquatic ecosystems through the integration of urban and water systems. This section employs the DPSIR conceptual framework and the coupling-effect theory to understand the relationships between urban and water systems. Third, this study introduces plan-making strategies in order to coordinate urban development, water resource management, and environmental protection of aquatic ecosystems. This section explains the technical framework for plan-making and the contents of plans, data, urban growth models and decision-making techniques. It is anticipated that the proposed integration of urban development and water resource management will guide the implementation of urban growth management and urban sustainable development.Tianjin City, a water-shortage city in northern China, is the focus of the empirical investigation in this dissertation. Chapter 5 explores the characteristics of urban and water systems during the rapid urbanization process that occurred from 2000 to 2018. The results show that the relationships between urban and water systems were weakening and that water resources have been a valuable commodity for urban development. Thus, efforts to coordinate the urban growth, management of water resources, and protection of aquatic ecosystems are essential for urban development in Tianjin. In Chapter 6, a model is built to simulate urban growth that integrates water carrying capacity and ecologically sensitive areas with urban land expansion. This model can be used to explore the characteristics of the urban and water systems in Tianjin under different urban growth scenarios. Chapter 7 projects future growth (till 2025) by assuming four different scenarios of urban growth and water resource management strategies; the continuing current plans scenario, urban development optimistic scenario, ecological protection scenario, and the coordinated urban development and ecological protection scenario. The modeling results show two main conflicts of urban and water systems: 1) the gap between the capacity of water resources and the expectation of urban growth and 2) the conflict between waterfront area development and protection. Finally, this study provides advice for urban growth management plans and policies to promote coordinated urban development and water resource management strategies. This study fills the research gaps in the following fields. First, this study introduces a conceptual framework to understand the relationships between urban and water systems using the DPSIR concept and coupling-effect theory. This provides a new concept to improve planning strategies and guide sustainable urban development. Second, this study establishes an urban growth modeling method that integrates water carrying capacity and aquatic ecological protection with urban land expansion using the Systematic Dynamic (SD) models, ecological security patterns theory and the Change in Land Use and its Effects at Small Regional Extent Model (CLUE-S) models. This modeling method supports the comparison of different planning projects and the decision-making process. Third, this study, by using Tianjin City as an example, identifies the conflicts between urban and water systems in the cities of North China that are experiencing water shortage, and proposes strategies to coordinate urban growth, water resource management and environmental protection, particularly in the implementation of compulsory regulated protection areas, urban growth boundaries, and feedback incentives.In conclusion, this study focuses on the changes in urban spatial planning systems and the need for ecological protection. By integrating the theories and research methods from multiple disciplines, including water resource management, environmental protection, and urban planning, this study establishes a planning concept—integration of urban and water systems—and explores the urban growth management strategies to promote sustainable and coordinated urban development.