Cornforth & Moore Property Management

Cornforth & Moore Property Management – (559) 259-8003 – Beautiful 3/2 in Harlan Ranch, Clovis, CA 93619 – You’ll love this home, Harlan Ranch Community, Schools, and Beautiful East Clovis! It is spacious with 1629 square feet, all on one level. Great great room opens to updated kitchen with granite counters, breakfast bar, black appliances including refrigerator, gas range, dishwasher, sink, microwave. It also includes a washer and dryer. The master bedroom is large with a slider to the back yard and its own private bath including a separate shower and tub. . Owner pays HOA fees. Enjoy the community pool, walking trails, and excellent schools, including Clovis North High School. This home is green, and has energy saving features! You will only save on energy bills. 2 car garage. Yard maintenance is included. No pets, please. Features: 3 times taxable income. Application fee $35.00 for each applicant over 18. Tax is $1924. Security Deposit $2024. Apply online at www.sandymoorehomes.com. Click Homes for Rent. Click on the property and Apply Now. 1 year lease! Available in November. Viewing: Please fill out the Online Inquiry/Request Viewing, and we will get back to you with a showing date. Cornforth & Moore Property Management No Pets Allowed (RLNE2312236) Pet Policies: No Dogs Allowed, No Cats Allowed.

3 br, 2 bath House – 3768 Chessa Lane is a house located in Fresno County and ZIP Code 93619. This area is served by the Clovis Unified attendance area.

Cornforth & Moore Property Management

Would you like to live outside the hustle and bustle of the big city? While Clovis is close to Fresno, the town is more like a quiet pastoral town – you’ll see plenty of horses and cattle roaming the local ranches. Not surprisingly, it is a neighborhood where many people move to raise their families while continuing to work in the Fresno area.

Field And Remote‐sensing Evidence For Hydro‐mechanical Isolation Of A Long‐lived Earthflow In Central California

An added advantage is the fact that Clovis and Fresno are at the crossroads between northern and southern California. Several modes of public transportation serve Clovis, but most people travel by car because of the important network of accessible highways and state lines.

Locals enjoy browsing the shops and grabbing a bite to eat at Sierra Vista Mall, which is just a short drive from Clovis. If there aren’t enough horses and bull drives to satisfy your taste, then you must take a trip to the Clovis Rodeo. Chafee Zoo is home to a number of wild animals, such as sea lions and elephants.

3 br, 2 Bath House – 3768 Chessa Lane is located within 15 minutes or 8.7 miles from Fresno State. It is also close to Fresno City College and Fresno Pacific University.

School data provided by GreatSchools Great School Ratings helps parents compare schools across the state based on various indicators of school quality and provides a useful picture of how well each school is serving all of its students. Ratings range from 1 (below average) to 10 (above average) and may include test scores, college readiness, academic progress, advanced courses, fitness, discipline and attendance data. We also advise parents to visit the school, consider other information about the school’s performance and programs, and consider family needs as part of the school selection process.

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3 br, 2 bath House – 3768 Chessa Lane is close to Fresno Yosemite International, located 10.1 miles or 18 minutes away.

3 br, 2 Bath House – 3768 Chessa Lane has 3 shopping centers within 4.3 miles, which is about 8 minutes away. Miles and minutes will be for the furthest property.

3 br, 2 bath House – 3768 Chessa Lane has 5 parks within 11.0 miles, including Clovis Botanical Garden, Shinzen Japanese Garden, and Woodward Park.

3 br, 2 Bath House – 3768 Chessa Lane has 3 military bases within 60.1 miles, the closest is Fresno Air Guard Station which is 9.9 miles and 17 minutes away.

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Good news! This lease accepts applications through . Act now and your $ purchase will include 9 additional FREE referrals to participating properties. Editor and reviewer collaborations are the latest provided on their Loop research profile and may not reflect their status at the time of review.

Biodiversity communities play an important role in nitrogen (N) removal in constructed wetlands (CWs). However, the lack of studies on the microbial characteristics of wetland systems designed to treat stormwater indicates the importance of detailed investigation of microbial response to wetland changes. Additionally, the observed variability in N removal, and the discovery of links between microbial changes and wetland water level declines is an area of ​​research interest especially for stormwater use. This study surveyed approximately 150 publications to provide an overview and evaluation of N removal efficiency in different types of CWs where microbial communities and their behavior have been linked to controlling factors. Factors such as flow regime, vegetation, and physicochemical properties (e.g., temperature, dissolved oxygen, pH, and nitrogen concentration) were found to significantly affect microbial diversity and composition. Although many studies have analyzed microbial N removal, most conducted their studies in biological storage systems. Accordingly, some microbial pathways in CWs designed for stormwater treatment have not been investigated. Therefore, it is recommended that mechanisms, such as the reduction of dissociable nitrate to ammonia (DNRA) and comammox activity and their changes over wet-dry cycles in constructed wetlands with rainwater be investigated. This information can help engineers take advantage of the presence of other N-fixing communities that can improve microbial diversity within wetland systems. In addition, it is recommended to monitor the functional genes of microbes and their changes on wetland water changes in order to create an ecosystem with suitable conditions for microbial processes with high N removal capacity. In conclusion, the results of the current literature review they emphasize the importance of stormwater treatment and the implementation of new design strategies that can enhance microbial activity and diversity leading to better treatment results.

Excessive urbanization has led to an increase in the volume and rate of stormwater runoff due to increased infiltration capacity (Janke et al., 2017; Ma et al., 2021). Additionally, excess levels of nutrients in stormwater have caused hypoxia, eutrophication (Hobbie et al., 2017), and algal blooms in water bodies (Glibert and Burford, 2017; Paerl et al., 2018). Urban water management practices are therefore designed to harvest and reuse stormwater through environmentally sustainable practices (Prüss, 1998; Johnson et al., 2003; Hörman et al., 2004; Noble et al., 2006; USEPA, 2010; Converse et al., 2011). Therefore, constructed stormwater wetlands as a green and cost-effective method have been widely used to remove stormwater pollution to safely discharge treated urban water to natural water bodies (Malaviya and Singh, 2012; Tippler et al. al., 2012; Fu et al., 2016; Hu et al., 2016).

Constructed wetlands have the potential to reduce high flow rates and remove storm water pollution (Converse et al., 2011; Garfí et al., 2012; Sani et al., 2013; Vymazal, 2014; Wu et al. , 2015; Fu et al., 2016; Hu et al., 2016; Huang et al., 2018). This system reduces the effects of added nitrogen through physical, chemical, and biological processes including filtration, sedimentation, leaching, plant uptake, and microbial mediated systems. Although some CWs have been shown to exhibit high N removal rates, there is considerable variation in removal rates (Table 1). It has been shown that N removal pathways are influenced by factors such as CW type, wetland vegetation, wetland hydrology, physicochemical and biological properties of wetlands (Malaviya and Singh, 2012; Tippler et al., 2012; Fu et al. , 2016; Hu et al., 2016; Griffiths and Mitsch, 2020; Zhao and Piccone, 2020; Wei et al., 2021).

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Microbial pathways play a fundamental role in N removal, and their diversity and community structure reflect the proper functioning and maintenance of CW. Thus, variability in N removal rates may be associated with differences in microbial communities and their response to wetland structural features and operating conditions. Therefore, a literature review was conducted with the aim of identifying the microbial communities present and their role in treatment processes in CWs designed to capture stormwater. The objectives of this study were: (i) To provide a literature review where biological studies have been conducted on constructed wetlands, (ii) To understand the function of biological communities and their role in the treatment process, and (iii) To identify research gaps and provide suggestions for future studies. The overall results of this assessment will help water managers improve urban water management to meet water quality standards.

Previous studies have analyzed the microbial N removal pathway, the communities present, and their response to wetland hydrology, water loading levels, nutrient levels, physico-chemical parameters, retention time, aeration frequency, and plant biomass using advanced molecular techniques. However, most of the literature deals with the treatment of domestic and industrial wastewater, while current research focuses mainly on CWs that are designed to treat stormwater. The review has therefore been expanded to include these systems, highlighting aspects that are specific to stormwater as they are unique in many respects compared to other influences (Lucke et al., 2018; Wang et al., 2022). The

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