PAC 2010 - First International Scientific Global Warming Solution(GWS) Conference PAC 2010

Photosynthesis is simply the complete stoechiometric reverse of the respiration process and respiration is simply an extremely controlled form of combustion. Photosynthesis can thus be called a complete and 100% clean "recombustion" of CO2 from the atmosphere. Project AgroChall is basically thus not a very challenging project more than in the ambition to "clear up" after the fossil fuzzy era and thus the size of the project because our time to do it is comparatively short before the physical laws will otherwise take over within perhaps 30 years in a way that doesn´t give a second chanse back to mankind. Therefore it´s time to start to work stoechiometrically and together.

Experiences and well reputed natural scientists are asked to apply for a contribution to the First International Project AgroChallenge Conference at Orenas 6 - 9 Sept 2010 within all topics of relevance. Especially are contributions within the following topics requested:

Tentative topics:

- example subjects that will be wellcomed:

A. Global temperature variation during the evolution and its causes:

A1: Indications of temperature variation during the planet evolution and its reasons.

A2: Geological evidence and causal reasons during evolution of former cataclysmic heat chocks - inductions and effects.

A3: Currently compiled trends in global warming and its modelling.

A4: Global warming dynamics and potentials in temperature, climate change and sea elevation.

B. Sea level range caused by changing temperature during full icing and complete deicing periods:

B1: Proven sea level variation during the evolution.

C. Understanding photosynthesis and the dynamic(?) biotic C pools

C1: The relative size and importance of global photosynthesis.

C2: Annual yield (total above ground(TAG) biomass as dry matter(DM) ton/ha) in

C2a: TAG DM spontanious in different global regions and ecosystems.

C2b: Crop yield according to global FAO statistics

C2C: Plant growth potentials

C3: The evolution of the atmosphere

D. Understanding the C pools.

D1: The abiotic and the biotic C pools.

D2: The man affected C pools and their relative size.

D3: Sustainable Pool Combustion and non sustainable pool combustion.

D4: The theory behind a global CO2 reset

E. Intensified photosynthesis - the sustainable tools to boost photosynthesis

E1: Which are the tools to booster annual crop photosynthesis and what is the yield potential and benefits for man

E2: Regional best crop choice and the selection of most efficient annual crops for a commerical sequestering logistics.

E3: Plant breeding potential for higher yielding crops than wheat( a crop standard) in different regions of the world.

E4: Fertilizer energy yield and cost in modern fertilizer industry processes.

E5: Natural fertilizer efficiency in "eco-growing" philosophies.

E6: Net energy efficiency of photosynthesis in traditional and a high tech system cultivation agro system

approaching theoretical annual crop yields of TAG.

E7: At which TAG-price/kg is desalting of sea water reaching "break even" ?

E8: Which will be the most effective cultivation system to sequester C at a level corresponding to the accumulated

oulet of fossil carbon.

E9: How big is the global land area that must be cultivated to achieve a sustainable global CO2 reset back to the

1950:ies level of CO2 (300 ppm) under steady state conditions and under observed international fossil use trends ?

E10: Should we start a new man made evolution with the aim to achieve a complete global-CO2_reset ?

E11: Which are the products and the markets that could be developed within short for true commercial sequestering ?

E12: Can we build the models mathematically adequately and dynamically flexible enough to counterbalance both the

apparent planned fossil burning CO2 oulets, the methane now leaking out in the atmosphere from thawing

permafrost regions, NOx and photosynthetic "recombustion" to create a sustainable planet more like an Eden