APPENDIX III:
THE BATTELLE ENVIRONMENTAL EVALUATION SYSTEM
VALUE FUNCTIONS

Dr. Victor M. Ponce


The Battelle EES value functions are determined by judicious analysis and knowledge of the parameters and local situation. Lack of relevant data for most parameters precludes a more detailed assessment.

1.  Terrestrial browsers and grazers

No significant reduction in grazing area is expected at La Calzada, where most of the current use is agricultural. However, a significant reduction in grazing area is expected at Calicantro. The assigned values are from Vi,0 = 1.0 to Vi,1 = 0.4. Therefore, the weighted value for the entire project is: V1,0 = 1.0 to V1,1 = 0.7.

2.  Terrestrial crops

The surface area of terrestrial crops will increase substantially with the project, but some crops will be lost to inundation. The gain in terrestrial crops is represented as V2,0 = 0.4 to V2,1 = 1.0. The loss in terrestrial crops is represented as V2,0 = 1.0 to V2,1 = 0.8. The weighted value for the entire project is: V2,0 = 0.7 to V2,1 = 0.9.

3.  Terrestrial natural vegetation

A minor loss of natural vegetation is expected at La Calzada. However, a significant loss of natural vegetation is expected at Calicantro by flooding of the reservoir. The loss of natural vegetation at La Calzada is represented as V3,0 = 1.0 to V3,1 = 0.9. The loss of natural vegetation at Calicantro is represented as V3,0 = 1.0 to V3,1 = 0.5. The weighted value for the entire project is: V3,0 = 1.0 to V3,1 = 0.7.

4.  Terrestrial pest species

Terrestrial pest species are not expected to change substantially with the project. Therefore, the value is: V4,0 = 1.0 to V4,1 = 1.0.

5.  Terrestrial upland game birds

Upland game birds are expected to increase with the project, because the availability ot stored water in the reservoirs will increase the chances of survival. Therefore, the value is: V5,0 = 0.7 to V5,1 = 1.0.

6.  Aquatic commercial fisheries

Aquatic commercial fisheries are currently nonexistent. They are expected to increase moderately with the project. Therefore, the value is: V6,0 = 0.0 to V6,1 = 0.3.

7.  Aquatic natural vegetation

Aquatic natural vegetation is currently almost nonexistent. It is expected to increase moderately with the project. Therefore, the value is: V7,0 = 0.2 to V7,1 = 0.5.

8.  Aquatic pest species

Aquatic pest species are not expected to change substantially with the project. Therefore, the value is: V8,0 = 1.0 to V8,1 = 1.0.

9.  Sport fish

Sport fish is currently almost nonexistent. It is expected to increase substantially with the two-reservoir project. Therefore, the value is: V9,0 = 0.2 to V9,1 = 0.8.

10.  Waterfowl

Waterfowl is expected to increase substantially with the two-reservoir project. Therefore, the value is: V10,0 = 0.5 to V10,1 = 1.0.

11.  Terrestrial food web index

The terrestrial food web index is not expected to change substantially with the project. Therefore, the value is: V11,0 = 1.0 to V11,1 = 1.0.

12.  Land use

Land use is expected to change substantially with the two-reservoir project. Inundation at La Calzada will change land use from agricultural to a waterbody. Inundation at Calicantro will change land use from grazing land to a waterbody. The loss of agricultural lands at La Calzada is represented as V12,0 = 1.0 to V12,1 = 0. The loss of grazing lands at Calicantro is represented as V12,0 = 0.6 to V12,1 = 0. Therefore, a weighted value is: V12,0 = 0.8 to V12,1 = 0.

13.  Terrestrial rare and endangered species

The terrestrial rare and endangered species are not expected to change substantially with the project. Therefore, the value is: V13,0 = 1.0 to V13,1 = 1.0.

14.  Terrestrial species diversity

Terrestrial species diversity is not expected to change substantially with the project. Therefore, the value is: V14,0 = 1.0 to V14,1 = 1.0.

15.  Aquatic food web index

The aquatic food web index is expected to increase substantially with the project. Therefore, the value is: V15,0 = 0.2 to V15,1 = 0.8.

16.  Aquatic rare and endangered species

The aquatic rare and endangered species are not expected to change substantially with the project. Therefore, the value is: V16,0 = 1.0 to V16,1 = 1.0.

17.  River characteristics

The river characteristics are expected to decrease substantially with the project. Therefore, the value is: V17,0 = 1.0 to V17,1 = 0.

18.  Aquatic species diversity

Aquatic species diversity is expected to increase substantially with the project. Therefore, the value is: V18,0 = 0.2 to V18,1 = 0.8.

19.  Basin hydrologic loss

Basin hydrologic loss, i..e, a change from runoff to evapotranspiration, is expected to increase substantially with the project. Large volumes of flood runoff will be converted to economically beneficial uses. Therefore, the value is: V19,0 = 1.0 to V19,1 = 0.2.

20.  Biological oxygen demand (BOD)

The biological oxygen demand not expected to change substantially with the project. Perhaps only at the beginning of project operation, as the flooded vegetation decays. Therefore, the value is: V20,0 = 1.0 to V20,1 = 0.9.

21.  Dissolved oxygen (DO)

The dissolved oxygen is not expected to decrease substantially with the project. Perhaps only at the beginning of project operation, as the flooded vegetation decays. Therefore, the value is: V21,0 = 1.0 to V21,1 = 0.9.

22.  Fecal coliforms

The fecal coliforms are not expected to increase substantially with the project. Therefore, the value is: V22,0 = 1.0 to V22,1 = 1.0.

23.  Inorganic carbon

The inorganic carbon is not expected to change substantially with the project. Therefore, the value is: V23,0 = 1.0 to V23,1 = 1.0.

24.  Inorganic nitrogen

The inorganic nitrogen is not expected to change substantially with the project. Therefore, the value is: V24,0 = 1.0 to V24,1 = 1.0.

25.  Inorganic phosphate

The inorganic phosphate is not expected to change substantially with the project. Therefore, the value is: V25,0 = 1.0 to V25,1 = 1.0.

26.  Pesticides

The level of pesticides is not expected to increase substantially with the project. However, some allowance must be made for limited pesticide use during irrigation. Therefore, the value is: V26,0 = 1.0 to V26,1 = 0.9.

27.  pH

The value of pH in the water is not expected to change substantially with the project. Therefore, the value is: V27,0 = 1.0 to V27,1 = 1.0.

28.  Streamflow variations

Streamflow variations are expected to be substantial with the project. The flow will be markedly attenuated by reservoir action. Therefore, the effect is represented by: V28,0 = 1.0 to V28,1 = 0.2.

29.  Temperature

Water temperature is expected to moderately increase with the project, due to water storage in the reservoirs. Up to a 5oC departure from normal temperature is expected. Therefore, the effect is represented by: V29,0 = 1.0 to V29,1 = 0.6.

30.  Total dissolved solids (TDS)

Total dissolved solids are expected to moderately increase with the project, due to the conversion of runoff to evpotranspiration. Up to a TDS concentration of 1500 mg/L is expected. Therefore, the effect is represented by: V30,0 = 1.0 to V30,1 = 0.7.

31.  Toxic substances

The level of toxic substances is not expected to change substantially with the project. Therefore, the value is: V31,0 = 1.0 to V31,1 = 1.0.

32.  Turbidity

The level of turbidity is not expected to increase substantially with the project. Therefore, the value is: V32,0 = 1.0 to V32,1 = 1.0.

33.  Carbon monoxide

The level of carbon monoxide is not expected to increase substantially with the project. Therefore, the value is: V33,0 = 1.0 to V33,1 = 1.0.

34.  Hydrocarbons

The level of hydrocarbons is not expected to increase substantially with the project. Therefore, the value is: V34,0 = 1.0 to V34,1 = 1.0.

35.  Nitrogen oxides

The level of nitrogen oxides is not expected to increase substantially with the project. Therefore, the value is: V35,0 = 1.0 to V35,1 = 1.0.

36.  Particulate matter

The level of particulate matter is not expected to increase substantially with the project. However, some allowance must be made for limited exposure to atmospheric particulates during construction operations. Therefore, the value is: V36,0 = 1.0 to V36,1 = 0.9.

37.  Photochemical oxidants

The level of photochemical oxidants is not expected to increase substantially with the project. Therefore, the value is: V37,0 = 1.0 to V37,1 = 1.0.

38.  Sulphur dioxide

The level of sulphur dioxide is not expected to increase substantially with the project. Therefore, the value is: V38,0 = 1.0 to V38,1 = 1.0.

39.  Other chemicals

The level of other atmospheric chemical pollutants is not expected to increase substantially with the project. Therefore, the value is: V39,0 = 1.0 to V39,1 = 1.0.

40.  Land use

The land use around the reservoirs is not expected to change or develop substantially with the project. Nevertheless, some allowance must be made for minor urban settlements. Therefore, the value is: V40,0 = 1.0 to V40,1 = 0.9.

41.  Soil erosion

Soil erosion is not expected to be substantial. However, a certain amount of channel degradation will occur downstream of La Calzada reservoir due to the "hungry" water phenomenon. To account for this process, the value is assumed: V41,0 = 1.0 to V41,1 = 0.8.

42.  Noise

Noise is not expected to be substantial. However, a certain amount of noise will occur during construction. To account for this process, the value is assumed: V42,0 = 1.0 to V42,1 = 0.8.

43.  Geologic surface material

The geologic surface material is not expected to change substantially with the project. Therefore, the value is: V43,0 = 1.0 to V43,1 = 1.0.

44.  Relief and topographic character

The relief and topographic character is not expected to change substantially with the project. Therefore, the value is: V44,0 = 1.0 to V44,1 = 1.0.

45.  Width and alignment

The width and alignment of the river valleys are expected to moderately change with the reservoir projects. Therefore, the value is: V45,0 = 1.0 to V45,1 = 0.8.

46.  Odor and visual quality

The level of odor and visual quality is not expected to change substantially with the project. Therefore, the value is: V46,0 = 1.0 to V46,1 = 1.0.

47.  Sounds

The level of sounds are not expected to change or increase substantially with the project. Therefore, the value is: V47,0 = 1.0 to V47,1 = 1.0.

48.  Appearance [of water]

The appearance of water (in the reservoirs) is expected to improve substantially with the project. Therefore, the value is: V48,0 = 0.1 to V48,1 = 1.0.

49.  Land and water interface

The appearance of the land and water interface is expected to degrade during reservoir drawdown periods. Therefore, the value is: V49,0 = 1.0 to V49,1 = 0.9.

50.  Odor and floating materials

Odor and floating materials are not expected to be a serious problem in the reservoirs. Therefore, the value is: V50,0 = 1.0 to V50,1 = 0.9.

51.  Water surface area

Water surface area is expected to increase substantially with the project. This is a positive impact, since people have an innate afinity for water. Therefore, the value is: V51,0 = 0.1 to V51,1 = 1.0.

52.  Wooded and geologic shoreline

Wooded and geologic shoreline is expected to improve substantially with the project. This is a positive impact, since people have an innate afinity for shorelines. Therefore, the value is: V52,0 = 0.1 to V52,1 = 1.0.

53.  Animals - Domestic

The quantity of domestic animals is not expected to change substantially with the project. No aesthetic impact is envisioned. Therefore, the value is: V53,0 = 1.0 to V53,1 = 1.0.

54.  Animals - Wild

The quantity of wild animals is not expected to change substantially with the project. No aesthetic impact is envisioned. Therefore, the value is: V54,0 = 1.0 to V54,1 = 1.0.

55.  Diversity of vegetation types

The diversity of vegetation types is expected be to moderately affected in a negative way by the project. Therefore, the value is: V55,0 = 1.0 to V55,1 = 0.8.

56.  Variety within vegetation types

The variety within vegetation types is expected be to moderately affected in a negative way by the project. Therefore, the value is: V56,0 = 1.0 to V56,1 = 0.8.

57.  Manmade objects

Manmade objects such as dams and spillways are expected to moderately affect in a negative way the aesthetics of the project. Therefore, the value is: V57,0 = 1.0 to V57,1 = 0.8.

58.  Composition

The dams and reservoirs are expected to add to the aesthetic quality of the sites. Therefore, the value is: V58,0 = 0.7 to V58,1 = 1.0.

59.  Unique composition

The dams and reservoirs are expected to diminish the value of unique composition of the sites. The intrinsic value of the site at La Calzada is judged to be greater than that of the site at Calicantro. Therefore, the weighted value is: V59,0 = 1.0 to V59,1 = 0.9.

60.  Archaeological

The archaeological legacy of the region is not expected to be substantially affected by the project. Therefore, the value is: V60,0 = 1.0 to V60,1 = 0.9.

61.  Ecological

The ecological components of the region are not expected to be affected by the project. Therefore, the value is: V61,0 = 1.0 to V61,1 = 1.0.

62.  Geological

The geological features of the region are not expected to be substantially affected by the project. However, the dam/reservoirs will inundate lands that are rich in fossil remains. Therefore, the value is: V62,0 = 1.0 to V62,1 = 0.8.

63.  Hydrological

The hydrologically unusual features (waterfalls, geisers, etc.) of the region are not expected to be affected by the project. Therefore, the value is: V63,0 = 1.0 to V63,1 = 1.0.

64.  Architecture and styles

Architecture and styles of the region are not expected to be affected by the project. Therefore, the value is: V64,0 = 1.0 to V64,1 = 1.0.

65.  Events

Events of the region are not expected to be affected by the project. Therefore, the value is: V65,0 = 1.0 to V65,1 = 1.0.

66.  Persons

Famous persons of the region are not expected to be affected by the project. Therefore, the value is: V66,0 = 1.0 to V66,1 = 1.0.

67.  Religions and cultures

Religions and cultures of the region are not expected to be affected by the project. Therefore, the value is: V67,0 = 1.0 to V67,1 = 1.0.

68.  Western frontier

This parameter does not apply to the region. Therefore, the value is: V68,0 = 1.0 to V68,1 = 1.0.

69.  Indians

This parameter does not apply to the region. Therefore, the value is: V69,0 = 1.0 to V69,1 = 1.0.

70.  Other ethnic groups

This parameter does not apply to the region. Therefore, the value is: V70,0 = 1.0 to V70,1 = 1.0.

71.  Religious groups

Religions groups of the region are not expected to be affected by the project. Therefore, the value is: V71,0 = 1.0 to V71,1 = 1.0.

72.  Awe-inspiration

The sensation of awe-inspiration, typical in very special or unique natural places, is not expected to be affected by the project. Therefore, the value is: V72,0 = 1.0 to V72,1 = 1.0.

73.  Isolation-solitude

The sensation of isolation-solitude, typical of remote natural places, is not expected to be affected by the project. Therefore, the value is: V73,0 = 1.0 to V73,1 = 1.0.

74.  Mystery

The sensation of mystery, typical of unknown or unexplored places, is not expected to be affected by the project. Therefore, the value is: V74,0 = 1.0 to V74,1 = 1.0.

75.  Oneness with nature

The sensation of oneness with nature, typical of pristine or human-uninhabited places, is not expected to be affected by the project. Therefore, the value is: V75,0 = 1.0 to V75,1 = 1.0.

76.  Employment opportunities

Employment opportunities will be substantially increased with the project. Therefore, the value is: V76,0 = 0.3 to V76,1 = 1.0.

77.  Housing

Housing in the region will be substantially affected by the project. The hamlet of Mochumi Viejo near La Calzada will be flooded by the reservoir. However, no housing or living areas will be flooded at Calicantro. Therefore, the weighted value is: V77,0 = 1.0 to V77,1 = 0.5.

78.  Social interactions

Social interactions such as recreational opportunities will be enhanced by the project. Other social interactions through enhanced agriculture and commerce will be significantly increased with the project. Therefore, the weighted value is: V78,0 = 0.3 to V78,1 = 1.0.


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