Hemp offers many different uses that can promote a more sustainable world. Hemp products can be recycled, reused and are 100% biodegradable. Proponents of hemp claim that it can help reduce global warming because it takes out large amounts of carbon dioxide per acre, more than most plants. This is especially true if the end products are locked up permanently in applications like building materials as opposed to recycling the carbon by applications such as compost.
Industrial hemp is a very robust, competitive plant that will outcompete weeds. In most cases this makes production possible without the use of herbicides. This is a clean air benefit that reduces pesticide load on the environment.
Industrial hemp has a large tap root that is capable of penetrating deep into the soil profile to pick up required water and nutrients for plant development. This is a benefit as hemp recovers nutrients that might otherwise be leached below the root zone and enter the groundwater. In addition, the deep roots open up the soil and enhance the tilth of the soil for future crops.
The utilization of hemp in biofibre processing has significant environmental benefits. Bio-products made of hemp can produce environmentally friendly products that are easily recycled in compost or in landfills. Most hemp-derived products are non-toxic, biodegradable and renewable.
Carbon Sequestration: High biomass crops such as industrial hemp are associated with the ability to sequester higher amounts of carbon through photosynthesis, storing it in the body of the plant and its roots.
The carbon in the fibre is then transferred into processed biofibre products. Biomass is approximately 40% carbon. Processing of the fibre will sequester carbon that will be captured and tied up in manufactured products.
Based on Andreae and Merlet (2001) we can assume that during field burning, one kg of hemp straw will release 1515 grams of CO2, 2.7 grams of CH4and 0.07 grams of N2O. The same document also suggests that about 80% of the biomass in the field would be burned (20% would remain unburned). The global warming potentials of each of the three greenhouse gases are CO2= 1515, CH4= 25, N2O = 298 grams.
Total greenhouse gas emissions, in units of kg of carbon dioxide equivalents, from field burning of one tonne of hemp straw could be calculated as: 1 tonne of hemp straw in the field * 80% biomass combustion * (1515 kg CO2* 1 + 2.7 kg CH4* 25 + 0.07 kg N2O * 298) = 1603 kg CO2eq.
EMISSION FACTORS (g kg-1DRY MATTER BURNT) FOR VARIOUS TYPES OF BURNING. VALUES ARE MEANS ± SD AND ARE BASED ON THE COMPREHENSIVE REVIEW BY ANDREAE AND MERLET (2001)
(To be used as quantity Gef in equation 2.27)
Category |
CO2 |
CO |
CH4 |
N2O |
NOx |
Savanna and grassland |
1613
±95
|
65
±20
|
2.3
±0.9
|
0.21
±0.10
|
3.9
±2.4
|
Agricultural Residues |
1515
±177
|
92
±84
|
2.7 |
0.07 |
2.5
±1.0
|
Tropical Forest |
1580
±90
|
104
±20
|
6.8
±2.0
|
0.20
|
1.6
±0.7
|
Extra Tropical Forest |
1596
±131
|
107
±37
|
4.7
±1.9
|
0.26
±0.07
|
3.0
±1.4
|
Biofuel Burning |
1550
±95
|
78
±31
|
6.1
±2.2
|
0.06 |
1.1
±0.6
|
Note: the "extra tropical forest" category contains all other forest types.
Note: for combusions of non-woody biomass in Grassland and Cropland, CO2emissions do not need to be esitmated and reported, because it is assumed that annual CO2removals (through growth) and emissions (whether by decay or fire) by biomass are in balance (see early discussion on synchrony in section 2.4.)
For current industrial hemp production in Canada, that is significantly grain based and not fibre based, burning hemp fibre that remains after grain harvest is the only available option to remove the straw from the field. Burning hemp fibre releases carbon into the atmosphere. As markets develop, for fibre resulting from grain production, it is expected the industry may see a change in this practice.
Carbon sequestering will result due to the growing of a plant with a higher root biomass. Root biomass is equivalent to approximately 20% of the above ground biomass.
Large Hemp Tap Root
Hemp must be compared to an alternate major acreage crop grown in the area like wheat, which on average will produce 0.75 tonnes per acre of straw per year equating to 0.15 tonnes of residue in the wheat roots. A hemp crop producing 3 tonnes of fibre per acre would produce 0.6 tonnes per acre in the roots. A net benefit for growing or switching wheat acres to hemp acres in the agriculture production system would be 0.6 - 0.15 = 0.45 tonnes per acre more carbon sequestered in the soil per year from the hemp roots as opposed to growing wheat.