Presentation is loading. Please wait.

Presentation is loading. Please wait.

Nutrient management in the food chain of China Fusuo Zhang Lin Ma China Agricultural University Feb. 25,2014, Beijing, China-UK Workshop on Nutrient Management.

Published byDoreen Parrish Modified over 8 years ago

Similar presentations

Presentation on theme: "Nutrient management in the food chain of China Fusuo Zhang Lin Ma China Agricultural University Feb. 25,2014, Beijing, China-UK Workshop on Nutrient Management."— Presentation transcript:

1 Nutrient management in the food chain of China Fusuo Zhang Lin Ma China Agricultural University Feb. 25,2014, Beijing, China-UK Workshop on Nutrient Management and Water Resource Protection

2 Outline  Problems and challenges  Nutrient flow in the food chain  Strategies of nutrient management

3 Food security issue of China is always a global concern Lester Brown

4 It took several hundred years to realize the dream of food sufficiency in China (Data from the Statistic Bureau of China; Demand was estimated by using average grain demand of 400 kg/capita/yr) Year Grain demand and production (M ton)Population (M)

5 Grain yield in China has been merely secured by much higher input of resources including fertilizer, irrigation, plastic film and pesticides. (National bureau of statistics of China, 1961-2010; Zhang et al., 2011) Grain production and resources input

6 50 70 90 110 300 200 100 0 30 050100150200250 300 350 Relative yield(%) GHGI(kg CO 2 eq Mg -1 ) N rate (kg N ha -1 ) Africa Developed countries China Environment impact by N loss Yield response curve 130 500

7 Fertilizer Overuse and Misuse

8 Air pollution Bulk N deposition has increased from 13 kg N ha -1 in 1980s to 21 kg N ha -1 in 2000s, among which agricultural N r sources occupied ~2/3. NATURE (Liu et al., 2013)

9 Soil pH was decreased by 0.5 units due to overuse of N fertilizers. -0.5 Soil acidification

10 China’s eutrophied lake area reached 8700 km 2 (2007) over the last 4 decades. (China State Oceanic Administration, 2009 ) (Jin, 2009) Eutrophication (Science 2009, 1014-1015)

11 Outline Food security and fertilizer application  Nutrient flow in the food chain Strategies of nutrient management

12 Nutrient management in the food chain Ma Lin’s thesis

13 (Zhang et al., 2012)

14 1.7 fold 2.4 fold  N fertilizer input is 1.7 fold of crop uptake  Total N input is 2.4 fold of crop uptake (张卫峰等, 2013 ) N input and crop uptake in Chinese crop land in 1961-2009 CCalculated by using NUFE model (Ma et al.,2010) and FAO data base www.fao.orgwww.fao.org

15 “Better Life” in China - rapid growth of animal food, fruits and vegetables 19611989 2010 The percentage of plant protein and animal protein (Ma et al., 2013, Data source: FAO)

16 Booming development of animal husbandry in China in the past 30 years Pig, meat cow, sheep and goat, milk cow numbers Poultry numbers Year (the Statistic Bureau of China)

17 Des-coupling of crop and animal production ( Wang et al., 2010)

18 Atmosphere N 2, NH 3, N 2 O Exports and losses Environmental Sustainability Surface waters Groundwater Erosion and runoff Leaching N Crop production ( soil accumulation ) P Animal production Food security imports Resource use efficiency Food processing Human consumption (Ma et al., 2010) Quantify nutrient flow in the food chain by a new model NUFER (NUtrient flows in Food chains, Environment and Resources use)

19 High N fluxes in the food chain of China 3.1 21 House- Hold 2.8 Animal Production 7.4 Crop Production 17.3 House- Hold 3.5 Animal Production 11.0 Crop Production 28.9 House- Hold 4.1 Animal Production 18.1 Crop Production 40.5 House- Hold 5.0 Animal Production 21.0 Crop Production 46.1 1980199020002010 + 0.7 + 11.5 + 3.6 + 0.6 + 11.6 + 8.1 + 0.9 + 5.6 + 3.1 2.0 2.3 0.5 3.8 2.8 0.8 5.5 3.3 0.9 7.5 3.5 1.5 0.14 1.1 1.3 0.170.18 1.31.1 0.15 Unit: Million tonne (Mt) Air 14.3 Air 22.4 Air 24.1 Air 8.6 + 5.7+ 8.1+1.7 Water 6.1 Water 11.7 Water 15.2 Water 3.3 + 2.8+ 5.6+3.5 (Hou et al., 2013)

20 Total N losses to environment from 1980 to 2010 ~ 4 times

21 To atmosphere To water bodies Contribution of N losses from different systems

22 3.1 21 House- Hold 0.37 Animal Production 1.1 Crop Production 2.3 House- Hold 0.46 Animal Production 2.1 Crop Production 4.4 House- Hold 0.54 Animal Production 4.0 Crop Production 6.9 House- Hold 0.62 Animal Production 4.5 Crop Production 8.3 1980199020002010 + 0.09 + 2.1 + 1.0 + 0.08 + 2.5 + 1.9 + 0.08 + 1.4 + 0.5 0.4 0.33 0.04 0.9 0.40 0.06 1.2 0.46 0.08 1.6 0.47 0.13 0.14 0.02 0.17 0.18 0.15 Unit: Million tonne (Mt) Water 0.73 Water 1.98 Water 2.83 Water 0.36 + 0.37+1.25+0.85 High P fluxes in the food chain of China

23 Total P losses to environment from 1980 to 2010 ~ 8 times

24 To water bodies Contribution of P losses from different systems

25 N and P losses of China in 2005 and EU in 2000 (kg N ha -1 ) China in 2005 EU in 2000 NH 3 11817 N2ON2O42 N2N2 6844 NO x 152 N losses via leaching, runoff and erosion13716 P losses via leaching, runoff and erosion22* (Velthof et al., 2009; Ma et al., 2010) * No data

26 NUE and PUE in China China in 1980 China in 2005 Global NUEc3226~50 NUEa81620-34 NUEf15914 PUEc633638 PUEa1317~21 PUEf24719 Note: NUE= (O Main product / I Total )*100 (Smil, 2002; Howarth et al., 2003; Van der Hoek, 1998; Galloway, 2002; Liu et al., 2009; Schroder et al., 2010)

27 Three-Step Strategy to increase crop yield and nutrient use efficiency at the same time - For ensure both food security and environment quality simultaneously Crop productivity Water and nutrient input At present ( saving fertilizer ) The 2nd step Yield increase10%-20% ( High-yield ) The 3rd step Yield increase 30%-50% Increase soil fertility The 1st step Saving N by 30% without yield penalty

28 Cut down N fertilizer by 30-50% reduces N loss into environment greatly without diminishing crop yield! 2009 (First step)

29 Mean maize grain yield and modeled yield potential, N balance (fertilizer inputs-harvest outputs) and N applied per unit of grain produced for different management systems: integrated crop and soil system management approach (ISSM, n=66), farmers’ practice (FP, n=4548), and high-input, high-yielding studies (HY, n=43). (Chen et al., PNAS, 2011) ----Increase yield and NUE by 30-50% (Third step)

30

31 Three-Step Strategy to increase animal productivity and decrease nutrient losses at the same time

32 2 Three-Step Strategy in crop production 1 Optimize diets Environment Fertilizer industry Decrease pressure Decrease demand Decrease losses 3 Recycle wastes 2 Three-Step Strategy in animal production Nutrient management in food chain

33 N and P cost in the food chain in China (Ma et al., 2014)

34 Thanks for your attention ! Acknowledgments NSFC, MoA, MoE, MOST

Download ppt "Nutrient management in the food chain of China Fusuo Zhang Lin Ma China Agricultural University Feb. 25,2014, Beijing, China-UK Workshop on Nutrient Management."

Similar presentations

MITERRA-EUROPE Assessment of nitrogen flows in agriculture of EU-27

MITERRA-EUROPE Assessment of nitrogen flows in agriculture of EU-27
On-farm Water Management: from efficiency to productivity Theib Oweis Director of Integrated Water & Land Management Program International Center of Agricultural.

On-farm Water Management: from efficiency to productivity Theib Oweis Director of Integrated Water & Land Management Program International Center of Agricultural.
Daily Manure Production Per Animal We have estimates of manure production –4.5 kg/day/hd for swine (liquid manure) –45-50 kg/day/hd for dairy cow (liquid)

Daily Manure Production Per Animal We have estimates of manure production –4.5 kg/day/hd for swine (liquid manure) –45-50 kg/day/hd for dairy cow (liquid)
Farmland…Uses and Challenges. Farmlands: Land that is used to grow crops and fruit The United States contains more than 100 million hectares of farmland.

Farmland…Uses and Challenges. Farmlands: Land that is used to grow crops and fruit The United States contains more than 100 million hectares of farmland.
Department of Economics Bapatla College of Arts & Science Indian Agriculture – An Overview.

Department of Economics Bapatla College of Arts & Science Indian Agriculture – An Overview.
Environmetal problems related to manure management Greenhouse gas emission from manure stores.

Environmetal problems related to manure management Greenhouse gas emission from manure stores.
Nitrogen fertilization  Essential to the optimal nutrient supply of the plants.  Useful effects: –more crop –better quality  Harmful effects: –leaching.

Nitrogen fertilization  Essential to the optimal nutrient supply of the plants.  Useful effects: –more crop –better quality  Harmful effects: –leaching.
唐剑武 Recent advances in ecosystem nitrogen cycling: mechanism, measurement, and modeling of N 2 O emissions.

唐剑武 Recent advances in ecosystem nitrogen cycling: mechanism, measurement, and modeling of N 2 O emissions.
The Cost of Consumption: Pollution of the Livestock Industry Clemente Velasco-Annis University of Massachusetts, Amherst.

The Cost of Consumption: Pollution of the Livestock Industry Clemente Velasco-Annis University of Massachusetts, Amherst.
Dutch manure policy | November 19th, 2013 Dutch manure policy Seminar Portugal Emar Gemmeke Policy Coordinator.

Dutch manure policy | November 19th, 2013 Dutch manure policy Seminar Portugal Emar Gemmeke Policy Coordinator.
Sino-German Technical Cooperation Program Environmental Strategies of Intensive Agriculture in the North of China (ESIA)

Sino-German Technical Cooperation Program Environmental Strategies of Intensive Agriculture in the North of China (ESIA)
Environmental Science

Environmental Science
Classroom Catalyst.

Classroom Catalyst.
Food and AgricultureSection 1 Bellringer. Food and AgricultureSection 1 Objectives Identify the major causes of malnutrition. Compare the environmental.

Food and AgricultureSection 1 Bellringer. Food and AgricultureSection 1 Objectives Identify the major causes of malnutrition. Compare the environmental.
Agricultural Solutions to Support Food Security, Sustainability & Animal Welfare Mia MacDonald COP 17 - Durban December 2, 2011 www.brightergreen.org.

Agricultural Solutions to Support Food Security, Sustainability & Animal Welfare Mia MacDonald COP 17 - Durban December 2,
N surplus and handling of WFD in the Netherlands Gerard Velthof.

N surplus and handling of WFD in the Netherlands Gerard Velthof.
Changing Nature of Rural Landscapes and Communities John Williams NSW Commissioner for Natural Resources.

Changing Nature of Rural Landscapes and Communities John Williams NSW Commissioner for Natural Resources.
Chinese Drought, Bread Chinese Drought, Bread and the Arab Spring Beijing, 2013 Natural hazards – food security – political stability Troy Sternberg Geography.

Chinese Drought, Bread Chinese Drought, Bread and the Arab Spring Beijing, 2013 Natural hazards – food security – political stability Troy Sternberg Geography.
1 IPCC R K Pachauri Chairman, IPCC Director-General, TERI Gent 30 th August 2008 Less Meat, Less Heat: Impacts of livestock on climate change.

1 IPCC R K Pachauri Chairman, IPCC Director-General, TERI Gent 30 th August 2008 Less Meat, Less Heat: Impacts of livestock on climate change.
Feeding the world involves soil and water resources, food production, social and cultural issues, food distribution and environmental impacts.

Feeding the world involves soil and water resources, food production, social and cultural issues, food distribution and environmental impacts.

Similar presentations

Ads by Google