Contrasting responses of net primary productivity to inter-annual variability and changes of climate among three forest types in northern China

Nutrient inputs into tank bromeliads were studied in relation to growth and productivity, and the abundance, diversity and biomass of their animal inhabitants, in three forest types along an elevational gradient. Concentrations of phosphorus, potassium and calcium in canopy-derived debris, and nitrogen and phosphorus in phytotelm water, declined with increasing elevation. Dwarf forest bromeliads contained the smallest amounts of debris/plant and lowest concentrations of nutrients in plant tissue. Their leaf turnover rate and productivity were highest and, because of high plant density, they comprised 12.8% of forest net primary productivity (0.47 t ha−1 y−1), and contained 3.3 t ha−1 of water. Annual nutrient budgets indicated that these microcosms were nutrient-abundant and accumulated < 5% of most nutrients passing through them. Exceptions were K and P in the dwarf forest, where accumulation was c. 25% of inputs. Animal and bromeliad biomass/plant peaked in the intermediate elevation forest, and were positively correlated with the debris content/bromeliad across all forest types. Animal species richness showed a significant mid-elevational peak, whereas abundance was independent of species richness and debris quantities, and declined with elevation as forest net primary productivity declined. The unimodal pattern of species richness was not correlated with nutrient concentrations, and relationships among faunal abundance, species richness, nutrient inputs and environment are too complex to warrant simple generalizations about nutrient resources and diversity, even in apparently simple microhabitats.

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The impacts of land conversion and management measures on the grassland net primary productivity over the Loess Plateau, Northern China

The Science of The Total Environment ◽

10.1016/j.scitotenv.2018.07.161 ◽

2018 ◽

Vol 645 ◽

pp. 827-836 ◽

Cited By ~ 29

Author(s):

Chengcheng Gang ◽

Wei Zhao ◽

Ting Zhao ◽

Yi Zhang ◽

Xuerui Gao ◽

...

Keyword(s):

Loess Plateau ◽

Primary Productivity ◽

Net Primary Productivity ◽

Northern China ◽

Land Conversion ◽

The Loess Plateau ◽

Management Measures

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Is the net new carbon increment of coppice forest stands of Quercus ilex ssp. ballota affected by post-fire thinning treatments and recurrent fires?

International Journal of Wildland Fire ◽

10.1071/wf08180 ◽

2010 ◽

Vol 19 (5) ◽

pp. 637 ◽

Cited By ~ 8

Author(s):

Francisco R. López-Serrano ◽

Jorge De Las Heras ◽

Daniel Moya ◽

Francisco A. García-Morote ◽

Eva Rubio

Keyword(s):

Primary Productivity ◽

Quercus Ilex ◽

Net Primary Productivity ◽

Terrestrial Ecosystems ◽

First Year ◽

Forest Types ◽

Forest Stands ◽

Se Spain ◽

Coppice Forest ◽

Global Values

Coppice forest stands of Quercus ilex have been one of the forest types most impacted by fire in Spain. After fire, their capability to resprout produces a high density of stems that requires thinning in order to avoid stagnation within the stands. In August 1993 and July 2001, two consecutive fires affected a Quercus ilex coppice stand in SE Spain. This study investigated the effects of different post‐fire thinning treatments and recurrent fires on stock and net new carbon increment (NNCI) in a 6‐year‐old coppice stand. Four degrees of thinning were applied: medium thinning (to a final density of 5000 trees ha–1), drastic thinning (to 1800 trees ha–1), full felling (all trees removed) and no thinning (control). Results showed NNCI was within the lower limit of the average global values reported for net primary productivity of terrestrial ecosystems. The best thinning treatment to maximise both current annual NNCI and mean annual NNCI stimulation, and keep new resprouting within reasonable levels was medium thinning. However, recurrent fires caused the observed net primary productivity to decrease, which allowed us to conclude that stump vitality is affected by successive fires, at least the first year after a new fire.

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Impacts of 1.5 °C and 2 °C Global Warming on Net Primary Productivity and Carbon Balance in China’s Terrestrial Ecosystems

Sustainability ◽

10.3390/su12072849 ◽

2020 ◽

Vol 12 (7) ◽

pp. 2849

Author(s):

Li Yu ◽

Fengxue Gu ◽

Mei Huang ◽

Bo Tao ◽

Man Hao ◽

...

Keyword(s):

Global Warming ◽

Primary Productivity ◽

Net Primary Productivity ◽

Climate Adaptation ◽

Coupled Model ◽

Terrestrial Ecosystems ◽

Northern China ◽

Ecosystem Model ◽

Intercomparison Project ◽

Potential Risks

Assessing potential impacts of 1.5 °C and 2 °C global warming and identifying the risks of further 0.5 °C warming are crucial for climate adaptation and disaster risk management. Four earth system models in the Coupled Model Intercomparison Project Phase 5 (CMIP5) and a process-based ecosystem model are used in this study to assess the impacts and potential risks of the two warming targets on the carbon cycle of China’s terrestrial ecosystems. Results show that warming generally stimulates the increase of net primary productivity (NPP) and net ecosystem productivity (NEP) under both representative concentration pathway (RCP) 4.5 and RCP8.5 scenarios. The projected increments of NPP are higher at 2 °C warming than that at 1.5 °C warming for both RCP4.5 and RCP8.5 scenarios; approximately 13% and 19% under RCP4.5, and 12.5% and 20% under RCP8.5 at 1.5 °C and 2 °C warming, respectively. However, the increasing rate of NPP was projected to decline at 2 °C warming under the RCP4.5 scenario, and the further 0.5 °C temperature rising induces the decreased NPP linear slopes in more than 81% areas of China’s ecosystems. The total NEP is projected to be increased by 53% at 1.5 °C, and by 81% at 2 °C warming. NEP was projected to increase approximately by 28% with the additional 0.5 °C warming. Furthermore, the increasing rate of NEP weakens at 2 °C warming, especially under the RCP8.5 scenario. In summary, China’s total NPP and NEP were projected to increase under both 1.5 °C and 2 °C warming scenarios, although adverse effects (i.e., the drop of NPP growth and the reduction of carbon sequestration capacity) would occur in some regions such as northern China in the process of global warming.

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