Determination of the Most Priority Conservation Areas Based on Population Pressure and Erosion Hazard Levels in Lesti Sub-Watershed, Malang Regency, Indonesia

In a watershed, the Erosion Hazard Level (EHL) is usually associated with erosion rate and existing soil solum. In Lesti Sub-Watershed, erosion rate increases every year due to erosivity factor, erodibility, the length and slope, as well as crop factor and land conservation action. Analysis of erosion associated with population pressure has not been much discussed in the Lesti Sub-Watershed. This topic needs to be explored given that the erosion rate that affects sedimentation in the Sengguruh Reservoir, as an outlet of the Lesti Sub-Watershed, cannot be separated from the population activity therein. The population activity and the choice of use of land suppress the land so that it affects the carrying capacity of the watershed. Measuring land strength is usually based on the value of existing population pressure and its effect on vulnerability or erosion hazard level. This study seeks to assess the relationship between erosion hazard level and population pressure, as well as to determine the priority conservation areas in the Lesti Sub-watershed. The research approach uses a mixed method. The results shows that from 12 sub-districts in Lesti Sub-watershed there is 1 sub-district which has high population pressure as well as severe EHL. This sub-district is the most priority area for environmental conservation.


Introduction
The problem of watersheds is the problem of ecological balance related to the carrying capacity of the environment and its components [1][2][3]. The environment is defined as a region (region, etc.) as a boundary of economic activity, which influences the development of life in it [4,5]. Dwelling or hydrological containers of economic activity based on environment are described as watersheds [4,6].
The conversion of lands of an area of a watershed is due to population pressure on the land indicating there is a role for the community, both on a spatial scale and in general that affects the sustainability of natural resources [7][8][9]. Population pressure on this land is driven by the unbalanced rate of population growth with the availability of land resulting in increased activity and intensity on existing land or opening new land [10]. Conversion of lands without regard to topographic geological, and carrying capacity of ecosystems causes natural disasters such as landslides, floods and drought [11].
Land conversion is always associated with erosion [12]. Brantas watershed is one of the priority watersheds facing erosion problems [13,14]. Lesti subwatershed as part of the Brantas watershed plays a very important role in the preservation of the Sengguruh Reservoir. The Sengguruh Reservoir affects the supply of irrigation water for flood control, and generates most of the electricity in the East Java Province [15]. Erosion from upstream of the Lesti Sub-watershed sub-impacted a reduction in the storage capacity of the Sengguruh Reservoir resulting in an accelerated reduction of water storage from the original plan [16]. The interesting thing is that the upstream area of the Brantas watershed, especially the Lesti Sub-watershed is contributing a large river water flow to the downstream of the Sengguruh Reservoir [16][17][18].
Previous studies of erosion in the Lesti Sub-watershed show a significant upward trend in erosion rates. Yupi [19] has calculated the rate of erosion in the average of each hectare of land in the Lesti Sub-watershed, which is 30.57 tons/ha/ year. The results of the Setyono and Prasetyo studies in 2012 stated that the average erosion rate in each hectare of land in the Lesti Sub-watershed was 105.763 tons/ ha/year [20]. Meanwhile, the study of Ma'wa et al. [16] got an average erosion rate/hectare of 131,098 tons/ha/year. This research increasingly shows that areas with a high level of erosion hazard are also getting wider, especially in the current conditions.
Analysis of erosion associated with population pressure has not been much discussed in the Lesti Sub-watershed. This needs attention because the rate of erosion that affects sedimentation in the Sengguruh Reservoir as an outlet of the Lesti Sub-watershed cannot be separated from the activities of the residents therein. The activities of the population and the choice of how to use land in fact suppress the land so that it affects the carrying capacity of the watershed. Measuring land strength is usually known from the value of existing population pressures and their effects on vulnerability or the level of erosion hazard.
Research related to erosion in the Lesti Sub-watershed so far has only been influenced by physical factors of the watershed such as slope, vegetation, and soil erodibility [21]. Linkages between population pressures and the extent of the erosion hazard area in determining the most priority areas for conservation are rare [22][23][24][25][26]. The linkage and determination of the most priority areas for environmental conservation are interesting things to be studied further based on environmental science.

Time and location
The time to complete the research was 12 months from conceptualization, data collection, data analysis and report writing. The research location is limited to the Lesti Sub-watershed as one of the upstream Brantas watersheds (Figure 1).
Administratively, the Lesti Sub-watershed is located in Malang Regency with the total area of the sub-watershed is 64,740.84 ha. The research sites cover 12 subdistricts, namely Poncokusumo, Tirtoyudo, Ampelgading, Turen, Wajak, Dampit, Bululawang, Sumbermanjing Wetan, Pagak, Gondanglegi, Gedangan, and Bantur Sub-district. The limitation of the study area starts from the headwaters of the Lesti Sub-watershed in Poncokusumo Sub-district to the Sengguruh Reservoir outlet.

Materials and tools
This research uses several secondary data from related institutions such as: 1) rainfall data in the last 10 years; 2) the latest land use and soil data in 2018 issued by the Office for Watershed Management and Protection Forest Brantas [27] in East Java, Indonesia; 3) contour spatial data (issued by Indonesia Spatial Information Board), soil type, slope and plant management factors and conservation measures. In addition, several tables were agreed upon by experts from previous researchers. Some secondary data related to the agricultural sector and population from agencies such as the Central Statistics Bureau (BPS) of Indonesiaand the Ministry of Agriculture of Indonesia are also needed, particularly to analyze population pressure in the Lesti Sub-watershed.

Research methods
The approach used is a mixed method with the population pressure analysis method using the Otto Soemarwoto [28] formula and the projected population growth using a geometric formula. The erosion rate calculation is analyzed using the MUSLE method with the support of Geographic Information System tools [29]. To calculate the erosivity of surface runoff as part of the MUSLE method, a modified rational formula is used. The software used is Arc GIS 10.3, and Microsoft Excel 2019. The level of erosion hazard is obtained by overlaying the erosion rate map analysis results with the soil solum map in the Lesti Sub-watershed in Office for Watershed Management and Protection Forest Brantas [27]. The choice of environmentally sound conservation priority areas based on the results of population pressure analysis >1 that intersects with the level of erosion hazard that is heavy/very heavy at the sub-district scale.
The definition of population pressure on land is a comparison of the number of people with a minimum area of land to live properly [28] (Figure 2).
Ideal population pressure is one that can still adjust the carrying capacity of the land. Carrying capacity of land itself is the ability of the environment to support life. The higher the percentage of land that can be used for agricultural land, the greater the carrying capacity of the land [28].
Ariani et al., 2012, stated that the Population Pressure value <1 indicates that there was no population pressure or that the area was still able to meet the population's living needs in more than adequate numbers. TP value equal to 1 means that the area is still able to meet the living needs of its inhabitants appropriately. TP value is greater than 1, meaning that there has been a population pressure on the  land in an area so that it is unable/able to meet the living needs of its residents properly.
Population pressure on land is calculated by the formula Otto Soemarwoto [28] as follows: The minimum land area of each farmer to be able to live properly (Z value) is calculated based on the formula as follows: where Z = Minimum land area per farmer to be able to live properly (ha) LST = The area of rain-fed rice fields (ha) LLK = Dry land area (ha) LSI 1 = The area of irrigated rice field once a year harvest (ha) LSI 2 = The area of Irrigated rice field from twice a year harvest (ha) The proportion value of farmers in the population (f) is obtained from the formula submitted by Soemarwoto [28], namely: The population growth rate is calculated using the geometric formula as follows:

Results and discussion
Based on the existing formula related to calculation analysis for population pressure, the results are as shown in Tables 1 and 2 and Figures 4-6. These results are a combination of spatial calculations with Arc GIS and calculations using Microsof Excel.
The conditions shown in    Based on the results of the above calculations, it is known that the total recent erosion rate in the Lesti sub-watershed is 9,961,518,329 tons/ha/year. Considering that the value of the sediment delivery ratio in the Lesti sub-watershed is 8.247%, the amount of sediment in the sub-watershed is 821,556.3 tons/ha/year. Meanwhile, with the Lesti sub-watershed area of 64,740.84 ha, it can be calculated that the current average erosion rate in each ha of land in the Lesti sub-watershed is 153,868 tonnes/ha/year (exceeding the tolerable erosion rate of 30 tonnes/ ha/year). Previous research results from Yupi [19] stated that the average erosion rate in the Lesti sub-watershed was 30.57 ton/ha/year, and Setyono and Prasetyo's    Figure 7. Based on the results of calculations carried out by the author which states that the current erosion rate is 153.868 tonnes/ha/year, it can be said that there has always been an increase in the erosion rate of the Lesti Sub-watershed since the last 14 years so that better conservation management is needed.
The erosion rate calculation in the Lesti Sub-watershed is used as a basis for obtaining the extent and information on the Erosion Hazard Level Category (TBE) Tables 3 and 4. The values estimate the maximum soil loss that will occur on a land. Spatially, the TBE map makes it easy to see the condition of certain areas as conservation priority areas. TBE map is obtained by overlaying the current erosion rate map, behavior map and population pressure map with the soil solum map in the Lesti Sub-watershed Figure 8.
Some of the sub-districts identified as having the highest area of Erosion Hazard Levels marked in red on the map are in Wajak Sub-district, Tirtoyudo Sub-district, Dampit Sub-district, Sumbermanjing Wetan Sub-district, Gedangan Sub-district and Bantur Sub-district. As is known Dampit Sub-district, Turen Sub-district and Gondanglegi Sub-district have TP values >1, which means that there has been a population pressure on the land in an area so that it has not been able to meet the needs of its population properly Figure 9.
From the standpoint of environmental science, it can be said that erosion which is usually seen from the aspect of carrying capacity of the environment, also has a strong connection with social and economic aspects in the form of pressure. Based on TBE and TP analysis, it was found that 1 sub-district had slices, namely Dampit Sub-district. It is recommended that environmental conservation directives focus   on the sub-district through the application of technical, vegetative, agronomic, land and water civil conservation as well as a combination involving the community and in accordance with local conditions.

Conclusion
Based on the results of data analysis and discussion, it can be concluded that the Lesti Sub-watershed, there is a correlation between population pressure and the current choice of land use, which results in erosion vulnerability. At high population pressure (> 1) in general is directly proportional to the erosion-prone land use conditions such as settlements, dry land fields and open land. Based on environmental science, the government needs to balance economic, social and environmental needs in several regions. Priority for conservation is prioritized in Dampit Sub-district because it is an area with high TP slices and heavy TBE.
The recommendation that can be given to this sub-district is the provision of subsidies or incentives by the government for people who want to carry out agricultural efforts with conservation principles. This is to reduce the income gap because in some cases of agricultural output will decrease when applying the principle of environmental conservation. In the social aspect, efforts are needed to involve the community with their local wisdom to carry out conservation efforts, both technical civil, agronomic and vegetative so that there is a sense of ownership of government programs undertaken to prevent erosion in the upstream watershed.