1976. Distribution and cycling of nutrients in a natural Pinus banksiana ecosystem. Ecology 57: 110–120.Foster,N.W.and I.K.Mnoison.Distribution and cycling of nutrients in a natural Pinus banksiana ecosystem. Ecology . 1979Foster NW, Morrison IK (1976) Distribution and cycling of nutrients ...
Nutrient Cycling in Agroecosystems The potential release of nutrients from animal farms into soil, water and the atmosphere is a major concern in agronomy. Farm gate balances are widely util... RT Conant,K Paustian,SJD Grosso,... 被引量: 3发表: 0年 Letter to the editors of nutrient ...
33. Bliss, LC (ed.)(1977)."Truelove Lowland,Devon Island, Canada: A High Arctic Ecosystem". Univ. Seasonal movement of nutrients in plantsof different growth forms in Alaskan tundra ecosystems: Implications for herbivory. ].出版时间: 1992 被引量: 181 ...
Mass-balance ecosystem modelsIn this chapter we consider the cycling of Carbon (C), Nitrogen (N) and Phosphorus (P) in green roof ecosystems. The focus is placed primarily on N and P because these are the nutrients most often...doi:10.1007/978-3-319-14983-7_5Ishi Buffam...
The second major driver of long-term change in carbon cycling is the evolution of physiological traits. Ever since modern photosynthesis evolved in Precambrian oceans, competition for light, water, and nutrients in progressively more stressful habitats has driven physiological innovation among plants. Cer...
Nutrient cycling is one of the major functional properties of ecosystems. The amounts of nutrients contained within the ecosystem, their distribution among ecosystem compartments, and their rates of flow between compartments reflect the interactions between organisms and their environment, and are an expr...
In most forage production systems, essential nutrients required for plant growth are provided by different pools in the ecosystem. In general, warm-climate grasslands are characterized by extensive grazing systems with minimal inputs of commercial fertilizer and supplemental feed, primarily because of unf...
Biogeochemical cycling of iron is crucial to many environmental processes, such as ocean productivity, carbon storage, greenhouse gas emissions and the fate of nutrients, toxic metals and metalloids. Knowledge of the underlying processes involved in iron cycling has accelerated in recent years along wit...
the large range we found in the frequency of insect outbreaks may promote heterogeneity in catchment biogeochemistry across the landscape72. Defoliation leads to a loss of nutrients from catchments by transferring OM from forests to lakes37, ultimately shifting the nutrient balance of C and N in ...
Nutrients cycle among pools within an ecosystem, and losses of nutrients to the environment accompany each, transfer from, pool to pool. Efficient recapture of nutrients by plants is critical and extensively managed grasslands if these swards are to persist. In intensively managed systems, the greate...