1. Introduction
Parthenium hysterophorus L. is of great concern among the invasive alien plant species (IAPS) identified in Ethiopia. It causes several ecological and agricultural problems, such as the loss of crop productivity, fodder scarcity, biodiversity depletion, and health problems to human beings and livestock [1] [2] [3]. Based on its impact on food production, plant biodiversity, and animal and human health, it is ranked number one before Prosopis juliflora, which is aggressively invading most grazing lands and arable lands in the Northeastern part of Ethiopia [4] [5]. Though cattle do not eat Parthenium, its effects were observed on them when they walk-by or graze through patches of this weed. Such animals had inflamed udder and subsequently suffered from fever and rashes [6]. The plant also negatively affects foraging behavior and flower visitation by bees (Apis mellifera) [7].
First introduced in the 1970s, it has rapidly invaded diverse habitats, including roadside, grassland, and crop fields in the central, eastern, and northern Ethiopia [8] [9] [10]. Recent investigations showed that the weed has already conquered the arable and grasslands, mainly in East Shewa, West Shewa, Arsi, and the other fertile zones in Oromia Regional states [11] [12]. At present, the weed has already established itself in almost every region of the country [3] [11] [13] [14].
So far, there is no recommended effective control method for this menacing weed other than cultural control such as hand hoeing and slashing/chopping before flowering. The nature of proliferation, strong reproductive potential, and wide ecological range of adaptation makes the eradication of Parthenium challenging [15]. Previously, the use of physical and chemical control methods had proved ineffective, expensive, and not eco-friendly. Since the weed has great regeneration potential, its control using biological agents like beetles (Zygogramma bicolorata, moth (Epiblema strenuana and Carmentaithacae), weevil (Listronotus setosipennis), and leaf rust (Puccinia melampodi) have resulted in little success. Burning is effective in destroying the whole part of the plant but not recommended as it deteriorates the soil quality. Even though prolonged contacts with Parthenium plant can cause skin itching and dermatitis, hand hoeing proved to be more efficient than the use of herbicide [16]. However, it could be laborious to apply when the weed covers large areas. Thus, preventing the distribution and establishment of the weed from a new area is crucial.
In Metekel Zone (MZ), even though some scholars have reported its presence [10] [17] there was no report of severe invasion of Parthenium on agricultural lands up to date. Despite having fertile and virgin land, which is enormously suitable for crop and animal production, MZ had been less disturbed by cultivation compared to the northern and eastern parts of the country. However, recently, cultivation is dramatically increasing as the improved infrastructure and development attracted more investors to the area. This situation, coupled with persisting climate change, would probably stimulate the invasion of Parthenium on most economical lands such as arable and grazing lands.
In this study, we assessed the distribution and abundance of a fearsome Parthenium weed in MZ of Benishangul Gumuz region, Northwest Ethiopia. The actual means of its distribution in the zone were also investigated.
2. Material and Methods
2.1. Characterization of the Study Area
Metekel Zone is positioned between 9.9˚ to 12.5˚ North latitude and 34.9˚ to 36.6˚ East longitude in Benishangul Gumuz Regional State, Ethiopia. It has seven administrative districts, namely; Pawe, Mandura, Dangur, Dibate, Bulen, Wembera, and Guba (Figure 1). With 3,387,817 hectares of an estimated total area, the zone is classified as Kolla (82%), Woinadega (10%), and Dega (8%) agro-ecological zones. The altitude of the zone ranges from 600 meters to 3131 m.a.s.l. at Belaya Mountain and annually receives 1574 mm average rainfall (Pawe metrology record, 2014).
Figure 1. A map of the study area. Source: This study.
According to the 2007 census of the central statistical agency of Ethiopia, the zone had a total population of 276,367 (137,248 female, and 139,119 male) of whom 86.39% were rural dwellers and dependent on agriculture. The grain crops produced in the area consists maize, sorghum, finger millet, rice, haricot bean, soya beans, groundnuts, and sesame with the highest area coverage by finger millet (19.7%) followed by maize (12.8%) and sorghum (12.3%) [18]. Cattle, goats, and sheep are among the dominant animals reared in the Zone [19].
2.2. Survey on the Distribution and Abundance P. hysterophorus in MZ
The survey was conducted in the cropping season of 2016 in six Districts (i.e., Pawe, Mandura, Dibate, Bulen, Dangur, and Guba) of the MZ, Benishangul Gumuz regional state. Parthenium weed abundance was recorded at five km interval following all the accessible roads in the zone. The abundance was recorded based on researchers’ observational judgment [20], and the waypoints were simultaneously recorded using hand-held GPS60. At each stop, all habitats such as roadside, rangeland, cropland, and wasteland were assessed in a certain radius. The estimation of P. hysterophorus was recorded using seven abundance level; “Absent”—if there was no P. hysterophorus, “Present”—abundance uncertain, “Rare”—if there were one sighting of one or a few plants, “Occasional”—if there were a few sightings of one or a few plants, “Frequent”—if there were many sightings of single plants or small groups, “Abundant”—if there were many clumps or stands, and “Very abundant”—if the area was covered by extensive stands. Besides, the existing potential means of spread for the weed were recorded.
2.3. Data Analysis
The abundance and distribution map of Parthenium weed was developed using ArcGIS version 10 (ESRI) (Figure 2) after waypoints, and abundance data were loaded on a computer and adjusted to readable format on Microsoft Excel.
Figure 2. Flow chart of mapping process.
3. Results
3.1. Distribution and Abundance P. hysterophorus in MZ
Parthenium was recorded on five (5) sampling points out of the total 101 sampling points taken across all the assessed areas of the zone with a 4.5% frequency (Figure 3). It aggressively invaded roadside, wastelands, around habitation, and market places in the Gilgel Beles, Almu (“Adare temertbet”), Dibate and Bulen cities (Table 1). Furthermore, robust individuals of the plant were found scattered in the field nearby the Zeghibridge of the river bordering Dibate and Bulen district. This is might be a sensitive place for easy spread of the weed. On top of this, the weed was aggressively invading the nursery site of Mandura district located at Gilgel Beles city (Figure 4).
Figure 3. The distribution and abundance map of P. hysterophorus L. in MZ, Northwest Ethiopia.
Table 1. The status of P. hysterophorus distribution and abundance in MZ.
*Wl—Wastelands, Ah—Around habitation, Rs—Roadsides, Ns—Nursery site, Ab—Around bridge and Mp—Market places.
Figure 4. P. hyterophorus invasion in MZ. (a) Invasion of the Mandura District nursery site in the Gelgel Beles city, (b) Invasion near the Zeghi bridge, (c) Invasion on the roadside in the Dibate city.
3.2. Means of Spread for P. hysterophorus in MZ
The potential means of spread for P. hysterophorus in MZ includes road construction, vehicles, animals, rivers/irrigation water, and fruit/forest seedlings at Parthenium infected at nursery. Due to the Grand Ethiopian Renaissance Dum and Beles Sugar factory, there was a massive road construction extending from Chagni to Mandura through Dangur and Mandura through Jawi (Figure 5(a)). Thus, construction vehicles have crossed several agricultural fields, searching for soils and stones for the work. These vehicles were likely to distribute the weed from cities to rural areas. Besides, the highly populated animals in the zone contribute to the spread of the weed while feeding the infested field (Figure 5(c)). Above all, Mandura district, in collaboration with the zone agricultural office, was growing a grafted mango and other forestry seedlings at highly infested nursery with P. hysterophorus (Personal communication with expertise and observation, Figure 4(a)).
Figure 5. Means of transportation for deadly weed persisting in the region. (a) A contraction vehicle—pictured by the time of the survey on the way Chagni to Mandura district. (b) A Parthenium weed plant found growing at waste land near to the road in Gilgel Beles city. (c) Cattle feeding in the waste land infested with Parthenium weed at Gilgel Beles city. As Parthenium is unpalatable to animal they did not eat it, except the grasses.
4. Discussion
According to the present study, the P. hysterophorus was less distributed in MZ but aggressively invaded roadsides, wastelands, around habitation, and market places in four cities (i.e. Gilgel Beles, Dibate, Bulan and Almu “Adare temertbet”). Similarly, many scholars have reported that P. hysterophorus and other IAPS usually invade wasteland and roadsides in the cities at the phase of introduction [10] [11] [12]. The reason why they always appear in the city, and roadside is that their introduction is highly related to human activity [3]. After establishment, they eventually start moving to the most economically important areas like crop fields and grazing land. Vehicles, livestock, and road construction play a significant role in spreading the P. hysterophorus in particular [9] and other IAPS in general. Habitats that had continually disturbed and have low diversity become extremely vulnerable to the invasion [3].
Mosissa and colleagues [17] have surveyed in 2010 and reported five invasive alien plant species (i.e. Senna obtisifolia, Senna didymobotrya, Hyptis suaveolens, Lantana camera, and Parthenium hysterophorus) in MZ. According to their report, the distribution of P. hysterophorus was limited to roadsides, rural villages, and urban areas with less abundance while all other IAPS had already interred to agricultural fields. However, the current investigation confirmed that the coverage of P. hysterophorus was more abundant in the cities. It is alert that the weed has already established itself and ready to move to agricultural fields such as the arable and grazing lands.
Furthermore, the weed has started spreading from the area surrounding the Zeghibridge to the adjacent cropland and pasture on both sides of the river. In this particular study, there was no way to know when and how the plant was first introduced to the place; however, we speculated that the weed might have introduced with sand and stones used for the construction/maintenance of the bridge.
Moreover, the presence of P. hysterophorus at the nursery site most likely speeds up its spread across the area. It should be noted that raising seedlings at the place infested with P. hysterophorus is like providing transportation to agricultural fields. This way, the weed will not only infest crop fields but also be able to travel long distances and cover large areas relatively within a short period.
In general, P. hysterophorus is on the fast move to agricultural fields in the MZ. The crop and livestock production in the area has been already constrained by many factors like lack of agricultural technologies, disease and pests’ pressure, and low production awareness of farmers. Thus, the invasion of Parthenium in agricultural fields, coupled with the existing problems, can be devastating and causes food insecurity. Therefore, the public administrators and policymakers of the regional government, in collaboration with all stakeholders, should take a decisive and timely decision to mitigate the weed when it is still sparse and small.
Limitation
This study was limited to accessible roads in the zone with a certain radius at each waypoint.
Acknowledgements
We are grateful to the management members and expertise of Agricultural and Natural Resource office of Metekel Zone for their unreserved support during the implementation of the study.
Funding
The study was financially supported by Ethiopian Institute of Agricultural Research under the budget code 1.6.4 of Crop Research.