Non à la fermeture de l'aéroport de Mascouche CSK3

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2013-02-13 21:59


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2013-02-13 22:03


Marteau

#178 Re: Opinions.

2013-02-14 00:32

#1: Sieur D'Arquenson - Opinions.

Eh Oui...il semble que le maire laisse des dommages collatéraux très significatifs....et que personne en place à la mairie ne cherche à arrêter de tels actes...Donc il y a plus que le Maire dans tout cela...

Cela fait longtemps que certains groupes influents cherchent à mettre la main sur ce territoire...


Visiteur

#179

2013-02-14 00:55

Pourquoi nous enlever cette atraction.

Visiteur

#180

2013-02-14 02:09

Non pour la fermeture

Visiteur

#181

2013-02-14 02:37

apres tous ce que le maire a fait a cette ville il faut aumoin ,par respect des citoyens de mascouche attendre il ny a pas que largent il faut penser plus loin
Ghislain

#182 Répondre à Lo !!!! no.177

2013-02-14 03:27

Est-ce que tu fais partie du où des promoteurs qui ont déjà fait les plans d'implantations
des nouveaux bâtiments qu'ils vont construires sur le site de l'aéroport?
Avec au delà de vingts commentaires négatifs que tu as donné, je pense que tu as des intérêts
à ce que l'aéroport soit détruit. Peut-être qu'un jour tu auras besoin d'un avion pour tes déplacements, ce jour la, selon ton opinion, tu vas te cogner la tête sur un mur..., peut-être
là que tu vas comprendre à quoi ça sert, les avions.
Maire de Neuville

#183 Re: Répondre à Lo !!!! no.177

2013-02-14 03:29

#182: Ghislain - Répondre à Lo !!!! no.177

Non un opposant de Neuville!

Antonio Sanchez
L'auteur de cette pétition

#184 Re:

2013-02-14 03:40

#175: - Thanks For you're comment I know exactly what it is you talk about, we've being living through this hell for the last 11 years, never knowing when they'll decide to shut it down. thanks again for the support you bring.

 

Antonio Sanchez
L'auteur de cette pétition

#185 Re: Contamination du sol!

2013-02-14 04:01

#40: JLG - Contamination du sol! Rien car écolosl est prette à le faire gratuitement !!!!

Connaissez vous une entreprise prette a faire des traveaux gratuitement moi non à part écolosol une entente est déjà faite avec la ville de Mascouche . Sa sent pas bon.

 

Antonio Sanchez
L'auteur de cette pétition

#186 Re:

2013-02-14 04:17

#103: - Thanks for you're support, it is truth why care about the jobs !!! Here we are  in a living hell, we are discovering scandals every minute, and as i am writing these words some one get's away with oure money. What the F _ _ _ is going on nobody is reacting!!! It's about time we do something. thanks again.

 

Antonio Sanchez
L'auteur de cette pétition

#187 Re:

2013-02-14 04:19

#114: - Thanks

 

Antonio Sanchez
L'auteur de cette pétition

#188 Re:

2013-02-14 04:20

#119: - Thanks merci gracias spaciba

 

Antonio Sanchez
L'auteur de cette pétition

#189 Re: Et le plomb

2013-02-14 04:25

#150: bob - Et le plomb les moteur d'avion fonctionne au 100 LL  ce qui signifie low lead.

 

Antonio Sanchez
L'auteur de cette pétition

#190 Re: Et le plomb

2013-02-14 04:39

#150: bob - Et le plomb Voici des tonnes d'aliments contenant des taux de plomb qui risque encore plus de vous empoisonner car ingéré de façon orale.

Lead levels in school drinking water can rise because long periods of nonuse (overnight, weekends, vacation) are followed by heavy consumption (Bryan 2004). The U.S. EPA has developed guidelines to help schools manage lead in their drinking water (U.S. EPA 2006d).

Drinking water contributes an estimated 10–20% of the total lead exposure of the general population (U.S. EPA 1991); formula-fed infants can have higher exposures. Drinking-water lead levels > 15 ppb are associated with a 14% increase in the percentage of children with BLLs > 10 μg/dL (Lanphear et al. 1998b).

 

Chocolate

Lead levels in chocolate products exceed those in other foods. In 1980, the market basket Total Diet Study (TDS) by the FDA found lead levels in chocolate milk more than three times those in whole milk, and levels in milk chocolate candy approximated those in canned foods (Pennington 1983). In the 2004 TDS, chocolate bars had the highest lead levels of the 280 items surveyed (FDA 2006a). A 2005 study comparing lead concentrations and isotopic compositions of cocoa beans grown in Nigeria with finished candy products found levels 60 times higher in finished candy versus cocoa beans (Rankin et al. 2005). No single source of lead was identified; levels rose at each stage of production.

 

Candy

Candy imported from Mexico is found repeatedly with high lead levels. Both candy and wrappers printed with lead ink have been cited (CDC 2002a; FDA 1995; Lynch et al. 2000; North Dakota Department of Health 2004). Lead-contaminated candy has also been imported from the Philippines and from Asian and Latin American countries. EBL cases have been reported in California, New York, North Dakota, Oklahoma, and Texas. In California, in 2001, candy was identified as a possible lead source for > 150 children with EBLs. In November 2006, the FDA reduced its recommended maximum lead level for candy consumed by children from 0.5 ppm to 0.1 ppm (FDA 2006b).

 

Imported foods

Foods and packaging produced outside the United States can contain high lead levels. Several spices (Sattar et al. 1989; Woolf and Woolf 2005), especially Hungarian paprika, have been contaminated (Kakosy et al. 1996). Food coloring also has been implicated in children’s EBLs (Vassilev et al. 2005). In 2006, California sued PepsiCo and Coca-Cola Co. concerning lead in the labels of bottles brought to the United States from Mexico (Lifsher 2006).

 

Dietary supplements

An assessment of 84 dietary supplements found lead in all, with 11 samples exceeding the tolerable dietary lead intake level (Dolan et al. 2003). These results correlate with other FDA data (Hight et al. 1993; Wong et al. 2004). Other herbal supplements associated with high levels of lead include nettle (FDA 2002) and supplements to treat hair loss (Health Canada 2004).

The Dietary Supplement Health and Education Act prevents the FDA from requiring premarket safety approval for supplements; hence, they require neither proof of safety nor efficacy (Marcus and Grollman 2002). The FDA recently proposed good manufacturing practice regulations to help ensure the safety of dietary supplements (FDA 2003b) and is developing a final rule.

 

Glass and dishes

Leaded crystal contains 24–32% lead oxide. Crystal decanters and glasses can release high amounts of lead in a short time, especially with cola (Guadagnino et al. 2000). The FDA has cautioned that children and pregnant women should avoid frequent use of crystal glassware and should not use lead crystal baby bottles (Farley 1998).

Ceramic pottery and other dinnerware containing lead glazes can be important exposure sources. Numerous reports of EBLs associated with homemade or low-fired ceramics from Mexico, southern Europe, North Africa, and the Middle East exist (Hellstrom-Lindberg et al. 2006; Manor and Freundlich 1983; Matte et al. 1994). Relatively new, commercially manufactured ceramic dinnerware has also been cited (CDC 2004a). The FDA has established criteria for leachable lead in ceramics ranging from 0.5 to 3.0 μg/mL, depending on the product (FDA 2005c).

Glassware with decals or painted surfaces can also contain lead (Sheets 1999). In 1979, the FDA and the U.S. glassware industry established a voluntary quality control program for decorated glasses that contain lead (FDA 1992). Since 1994, the FDA has exempted ornamental ceramicware from lead-leaching requirements if it contains a permanent marking warning “for decorative use only” (FDA 1992). A complete listing of dishware restricted for importation is available (FDA 2007b).

 

Vinyl lunchboxes

The U.S. FDA advised manufacturers and suppliers that lead in soft vinyl lunchboxes (FDA 2006c) may transfer to food. Thus, it could be deemed an unsafe food additive (under Section 409 of the Federal Food Drug and Cosmetic Act) (FDA 2008) and adulterated within the meaning of Section 402(a)(2)(C) of the statute and subject to regulation.

 

Lead in consumer goods

According to the Consumer Product Safety Commission (CPSC), lead is the most frequently recalled substance that could result in poisoning. Many products associated with childhood lead poisoning are imported and do not meet U.S. standards (CDC 2002a; Geltman et al. 2001). A listing of all CPSC-recalled items is available (CPSC 2007). Products containing wood, metal, plastic, ceramics, and paper have been found with high lead concentrations.

 

Children’s products

Consumer goods with high lead content are found regularly. One study showed that 94% of plastic bread bags contained lead in the printing ink; a survey of families found that 16% reused bags to package children’s lunches (Weisel et al. 1991). In March and April 2007, CPSC issued recalls of 2,500 children’s painting easels, 128,700 toy sets, 400,000 key chains, 58,000 children’s necklaces, and 4 million children’s bracelets because of lead content. In August and September 2007, Mattel Inc. alone recalled 2.8 million lead-contaminated toys (Denver Post 2007). All of these items were made in China.

A study of toy jewelry found lead concentrations ≥ 50% in 40% of samples (Maas et al. 2005); when wiped, 70% of these samples released at least 1.0 μg lead, enough to cause high exposure with little handling. The scope and frequency of the recalls suggest that the current nonregulatory approach to controlling lead in children’s products could be strengthened.

 

Polyvinyl chloride (PVC)

Lead salts are used to stabilize polymers to avoid degradation from heat, sunlight, and wear. Although several studies demonstrate that dangerous lead exposures can occur with normal use of PVC products after extended use or exposure to sunlight, initial evaluation by CPSC found that lead in PVC products posed few risks to children (CPSC 1997).

An investigation of vinyl miniblinds found that they contaminate house dust and contribute significantly to lead toxicity in children (Norman et al. 1997; West et al. 1998). Because about 30 million sets are sold annually and the polymers degrade under normal conditions, this might be a lead exposure source for millions of children, particularly those living in manufactured housing commonly equipped with miniblinds.

Since 1977, the water pipe market has more than doubled, and 80% of new drinking water and wastewater pipes are plastic, mostly PVC (Vinyl News Service 2006). Early tests of PVC pipes showed that lead contamination could be high (National Academy of Sciences Safe Drinking Water Committee 1982). Despite a standardized testing procedure for plastic pipes to reduce the potential for high lead exposures [Mitchener 1992; NSF/ANSI (American National Standards Institute) 2008; U.S. EPA 2007e], reports of dangerous exposures from plastic pipes continue (Koh et al. 1991).

Artificial Christmas trees made of PVC also degrade under normal conditions (Maas et al. 2004). About 50 million U.S. households have artificial Christmas trees, of which about 20 million are at least 9 years old, the point at which dangerous lead exposures can occur. High lead levels have also been found in telephone cords (Abdul-Razzaq et al. 2003).

 

Synthetic turf

Synthetic turf is currently used on about 3,500 playing fields throughout the United States (Claudio 2008). Rubber infill or crumbs made from recycled tires keep the turf blades upright, and this rubber can contain lead. The exposure potential, especially on older fields that have accumulated dust and where the materials are deteriorating, is a research gap.

 

Candle wicks

Candles with a lead metal core contribute to lead in the home (Nriagu and Kim 2000; van Alphen 1999). Exposure occurs both from air and from hand-to-mouth activity. However, to date, no children’s EBLs traceable to candles have been reported. In 2002, the CPSC banned candlewicks containing > 0.06% lead (CPSC 2003).

 

Lead paint in housing

Approximately 38 million homes had lead-based paint (LBP) in 2000 (Jacobs and Nevin 2006). Of those, an estimated 24 million units had deteriorated lead paint, dust lead, or bare soil contaminated with lead (Jacobs et al. 2002). Of those with LBP hazards, 1.2 million units housed low-income families with children < 6 years of age. A relatively small number of properties may account for large numbers of children with EBLs (Korfmacher and Kuholski 2007; Meyer et al. 2005; Reyes et al. 2006).

Housing units with LBP hazards are not evenly distributed (Jacobs et al. 2002). In 2000, for households with incomes ≤ $30,000—the federal poverty level at that time—35% of the housing units had LBP hazards compared with 19% of all housing units. Northeast and Midwest housing has twice the prevalence of LBP hazards compared with housing in the South and West. Although the prevalence of LBP hazards increases with the age of the building, most painted surfaces, even in older housing, do not have lead paint; only 2–25% of building components have LBP (Jacobs et al. 2002).

Children in units with LBP are almost 10 times more likely to have an EBL than children in similar housing without lead paint (Schwartz and Levin 1991). Addressing lead paint hazards significantly reduces the risk of identifying another child with an EBL in a unit where one was previously identified (Brown et al. 2001a).

Mean BLLs of children whose housing was abated show a 38% decrease over a 2-year period after lead hazard control (National Center for Healthy Housing and the University of Cincinnati Department of Environmental Health 2004). Nonetheless, disturbing lead painted surfaces can increase the BLLs of children living in those units during repair work unless appropriate controls are instituted, especially dust clearance levels (Amitai et al. 1991; Bellinger et al. 1986; HUD 1995). Studies of well-conducted renovation activities show that although lead hazard interventions reduce most children’s BLLs, about 10% of the time BLLs significantly increased (CDC 1997; Clark et al. 2004); young children (< 18 months of age) are at highest risk of increases. BLLs of children who continued to live in the house or relocated for less than the full work period also were significantly more likely to increase than those of children who relocated for the entire renovation. Consequently, remediation and abatement activities that disturb lead paint must be followed by specialized cleaning and dust-lead testing to determine whether the unit is safe for re-occupancy. bonne lecture.

 

Antonio Sanchez
L'auteur de cette pétition

#191 Re: Re: Re: Et le plomb

2013-02-14 04:48

#173: Bob - Re: Re: Et le plomb En manger vous?

Lead levels in school drinking water can rise because long periods of nonuse (overnight, weekends, vacation) are followed by heavy consumption (Bryan 2004). The U.S. EPA has developed guidelines to help schools manage lead in their drinking water (U.S. EPA 2006d).

Drinking water contributes an estimated 10–20% of the total lead exposure of the general population (U.S. EPA 1991); formula-fed infants can have higher exposures. Drinking-water lead levels > 15 ppb are associated with a 14% increase in the percentage of children with BLLs > 10 μg/dL (Lanphear et al. 1998b).

 

Chocolate

Lead levels in chocolate products exceed those in other foods. In 1980, the market basket Total Diet Study (TDS) by the FDA found lead levels in chocolate milk more than three times those in whole milk, and levels in milk chocolate candy approximated those in canned foods (Pennington 1983). In the 2004 TDS, chocolate bars had the highest lead levels of the 280 items surveyed (FDA 2006a). A 2005 study comparing lead concentrations and isotopic compositions of cocoa beans grown in Nigeria with finished candy products found levels 60 times higher in finished candy versus cocoa beans (Rankin et al. 2005). No single source of lead was identified; levels rose at each stage of production.

 

Candy

Candy imported from Mexico is found repeatedly with high lead levels. Both candy and wrappers printed with lead ink have been cited (CDC 2002a; FDA 1995; Lynch et al. 2000; North Dakota Department of Health 2004). Lead-contaminated candy has also been imported from the Philippines and from Asian and Latin American countries. EBL cases have been reported in California, New York, North Dakota, Oklahoma, and Texas. In California, in 2001, candy was identified as a possible lead source for > 150 children with EBLs. In November 2006, the FDA reduced its recommended maximum lead level for candy consumed by children from 0.5 ppm to 0.1 ppm (FDA 2006b).

 

Imported foods

Foods and packaging produced outside the United States can contain high lead levels. Several spices (Sattar et al. 1989; Woolf and Woolf 2005), especially Hungarian paprika, have been contaminated (Kakosy et al. 1996). Food coloring also has been implicated in children’s EBLs (Vassilev et al. 2005). In 2006, California sued PepsiCo and Coca-Cola Co. concerning lead in the labels of bottles brought to the United States from Mexico (Lifsher 2006).

 

Dietary supplements

An assessment of 84 dietary supplements found lead in all, with 11 samples exceeding the tolerable dietary lead intake level (Dolan et al. 2003). These results correlate with other FDA data (Hight et al. 1993; Wong et al. 2004). Other herbal supplements associated with high levels of lead include nettle (FDA 2002) and supplements to treat hair loss (Health Canada 2004).

The Dietary Supplement Health and Education Act prevents the FDA from requiring premarket safety approval for supplements; hence, they require neither proof of safety nor efficacy (Marcus and Grollman 2002). The FDA recently proposed good manufacturing practice regulations to help ensure the safety of dietary supplements (FDA 2003b) and is developing a final rule.

 

Glass and dishes

Leaded crystal contains 24–32% lead oxide. Crystal decanters and glasses can release high amounts of lead in a short time, especially with cola (Guadagnino et al. 2000). The FDA has cautioned that children and pregnant women should avoid frequent use of crystal glassware and should not use lead crystal baby bottles (Farley 1998).

Ceramic pottery and other dinnerware containing lead glazes can be important exposure sources. Numerous reports of EBLs associated with homemade or low-fired ceramics from Mexico, southern Europe, North Africa, and the Middle East exist (Hellstrom-Lindberg et al. 2006; Manor and Freundlich 1983; Matte et al. 1994). Relatively new, commercially manufactured ceramic dinnerware has also been cited (CDC 2004a). The FDA has established criteria for leachable lead in ceramics ranging from 0.5 to 3.0 μg/mL, depending on the product (FDA 2005c).

Glassware with decals or painted surfaces can also contain lead (Sheets 1999). In 1979, the FDA and the U.S. glassware industry established a voluntary quality control program for decorated glasses that contain lead (FDA 1992). Since 1994, the FDA has exempted ornamental ceramicware from lead-leaching requirements if it contains a permanent marking warning “for decorative use only” (FDA 1992). A complete listing of dishware restricted for importation is available (FDA 2007b).

 

Vinyl lunchboxes

The U.S. FDA advised manufacturers and suppliers that lead in soft vinyl lunchboxes (FDA 2006c) may transfer to food. Thus, it could be deemed an unsafe food additive (under Section 409 of the Federal Food Drug and Cosmetic Act) (FDA 2008) and adulterated within the meaning of Section 402(a)(2)(C) of the statute and subject to regulation.

 

Lead in consumer goods

According to the Consumer Product Safety Commission (CPSC), lead is the most frequently recalled substance that could result in poisoning. Many products associated with childhood lead poisoning are imported and do not meet U.S. standards (CDC 2002a; Geltman et al. 2001). A listing of all CPSC-recalled items is available (CPSC 2007). Products containing wood, metal, plastic, ceramics, and paper have been found with high lead concentrations.

 

Children’s products

Consumer goods with high lead content are found regularly. One study showed that 94% of plastic bread bags contained lead in the printing ink; a survey of families found that 16% reused bags to package children’s lunches (Weisel et al. 1991). In March and April 2007, CPSC issued recalls of 2,500 children’s painting easels, 128,700 toy sets, 400,000 key chains, 58,000 children’s necklaces, and 4 million children’s bracelets because of lead content. In August and September 2007, Mattel Inc. alone recalled 2.8 million lead-contaminated toys (Denver Post 2007). All of these items were made in China.

A study of toy jewelry found lead concentrations ≥ 50% in 40% of samples (Maas et al. 2005); when wiped, 70% of these samples released at least 1.0 μg lead, enough to cause high exposure with little handling. The scope and frequency of the recalls suggest that the current nonregulatory approach to controlling lead in children’s products could be strengthened.

 

Polyvinyl chloride (PVC)

Lead salts are used to stabilize polymers to avoid degradation from heat, sunlight, and wear. Although several studies demonstrate that dangerous lead exposures can occur with normal use of PVC products after extended use or exposure to sunlight, initial evaluation by CPSC found that lead in PVC products posed few risks to children (CPSC 1997).

An investigation of vinyl miniblinds found that they contaminate house dust and contribute significantly to lead toxicity in children (Norman et al. 1997; West et al. 1998). Because about 30 million sets are sold annually and the polymers degrade under normal conditions, this might be a lead exposure source for millions of children, particularly those living in manufactured housing commonly equipped with miniblinds.

Since 1977, the water pipe market has more than doubled, and 80% of new drinking water and wastewater pipes are plastic, mostly PVC (Vinyl News Service 2006). Early tests of PVC pipes showed that lead contamination could be high (National Academy of Sciences Safe Drinking Water Committee 1982). Despite a standardized testing procedure for plastic pipes to reduce the potential for high lead exposures [Mitchener 1992; NSF/ANSI (American National Standards Institute) 2008; U.S. EPA 2007e], reports of dangerous exposures from plastic pipes continue (Koh et al. 1991).

Artificial Christmas trees made of PVC also degrade under normal conditions (Maas et al. 2004). About 50 million U.S. households have artificial Christmas trees, of which about 20 million are at least 9 years old, the point at which dangerous lead exposures can occur. High lead levels have also been found in telephone cords (Abdul-Razzaq et al. 2003).

 

Synthetic turf

Synthetic turf is currently used on about 3,500 playing fields throughout the United States (Claudio 2008). Rubber infill or crumbs made from recycled tires keep the turf blades upright, and this rubber can contain lead. The exposure potential, especially on older fields that have accumulated dust and where the materials are deteriorating, is a research gap.

 

Candle wicks

Candles with a lead metal core contribute to lead in the home (Nriagu and Kim 2000; van Alphen 1999). Exposure occurs both from air and from hand-to-mouth activity. However, to date, no children’s EBLs traceable to candles have been reported. In 2002, the CPSC banned candlewicks containing > 0.06% lead (CPSC 2003).

 

Lead paint in housing

Approximately 38 million homes had lead-based paint (LBP) in 2000 (Jacobs and Nevin 2006). Of those, an estimated 24 million units had deteriorated lead paint, dust lead, or bare soil contaminated with lead (Jacobs et al. 2002). Of those with LBP hazards, 1.2 million units housed low-income families with children < 6 years of age. A relatively small number of properties may account for large numbers of children with EBLs (Korfmacher and Kuholski 2007; Meyer et al. 2005; Reyes et al. 2006).

Housing units with LBP hazards are not evenly distributed (Jacobs et al. 2002). In 2000, for households with incomes ≤ $30,000—the federal poverty level at that time—35% of the housing units had LBP hazards compared with 19% of all housing units. Northeast and Midwest housing has twice the prevalence of LBP hazards compared with housing in the South and West. Although the prevalence of LBP hazards increases with the age of the building, most painted surfaces, even in older housing, do not have lead paint; only 2–25% of building components have LBP (Jacobs et al. 2002).

Children in units with LBP are almost 10 times more likely to have an EBL than children in similar housing without lead paint (Schwartz and Levin 1991). Addressing lead paint hazards significantly reduces the risk of identifying another child with an EBL in a unit where one was previously identified (Brown et al. 2001a).

Mean BLLs of children whose housing was abated show a 38% decrease over a 2-year period after lead hazard control (National Center for Healthy Housing and the University of Cincinnati Department of Environmental Health 2004). Nonetheless, disturbing lead painted surfaces can increase the BLLs of children living in those units during repair work unless appropriate controls are instituted, especially dust clearance levels (Amitai et al. 1991; Bellinger et al. 1986; HUD 1995). Studies of well-conducted renovation activities show that although lead hazard interventions reduce most children’s BLLs, about 10% of the time BLLs significantly increased (CDC 1997; Clark et al. 2004); young children (< 18 months of age) are at highest risk of increases. BLLs of children who continued to live in the house or relocated for less than the full work period also were significantly more likely to increase than those of children who relocated for the entire renovation. Consequently, remediation and abatement activities that disturb lead paint must be followed by specialized cleaning and dust-lead testing to determine whether the unit is safe for re-occupancy. Elle dit aussi ceci mme Miranda

 

dleblanc832

#192 Mascouche sans avions...

2013-02-14 05:19

Depuis que je suis tout jeune, mes étés comportaient encore et toujours des bruits de moteur d'avion... Nous avons assez de condos, de concessionnaires automobiles et de trafic en ville mais qu'un seul aéroport...
Pierre

#193 Re: L'apport économique d'un aéroport

2013-02-14 06:50

Dommage que tout cela soit rendu aussi loin! Le debat a deja ete fait semble t-il. http://www.myvirtualpaper.com/doc/journal-larevue/revue1sept2010/2010090101/7.html
Et aussi la Cour d'appel qui a tranche deja! http://www.larevue.qc.ca/actualites_cour-appel-tranche-en-faveur-mascouche-n23848.php. Dommage.

Ce message a été supprimé par son auteur (Montrer les détails)

2013-02-14 06:52



Visiteur

#195

2013-02-14 08:39

Mascouche est la 3e ville en importance au Québec en termes de superficie 107,95 km2.
(Tiré du site de la ville de Mascouches)
Pourquoi il s'acharne a faire des condos sur l'aéroport de Mascouche?
Il me semble qu'il y a beaucoup d'autres emplacement a Mascouche et bien mieux situé que sur le bord de l'autoroute!
Antonio Sanchez
L'auteur de cette pétition

#196 Re: Re: L'apport économique d'un aéroport

2013-02-14 17:57

#193: Pierre - Re: L'apport économique d'un aéroport La cour dit que les terrains appartiennent à la ville , point.  Elle ne dit pas que la ville doit s'en départir. Elle ne dit pas non plus de ne plus en faire un usage public.Elle ne dit pas allez construire des condos. Elle ne dit pas de capitalisé sur un terrain reçu gratuitement d'une antité politique à une autre

C'est la ville elle même qui eu l'idée d'y construire un aéroport en 1975, par le fait même nous à invités à nous y installer pilotes et entreprises de l'aviation, il est donc normal que la ville assume ses responsabilitées, si elle désire se départir des terrains, qu'elle soit conséquente et débute des démarches respectueuse avec les gens et les entreprises qu'elle veut délocalisés, tout est possible dans le respect, qu'on se penche sur des solutions, qu'on cesse de craintes et menaces comme il est question depuis l'ère Marcotte et continuité Paquette sa fait plus de dix ans que la situation perdure, asser c'est asser.

 

Ghislain

#197 informations sur l'aéroport

2013-02-14 18:26

J,ai un garage sur l'aéroport et je paie des taxes municipales à la ville de Mascouche même si le terrain est loué. Il est faux de dire que l'aéroport ne rapporte rien à la Ville, tous les bâtiments érigés sur le site paient des taxes, comme tous les autres citoyens de Mascouche.
Selon les informations que j'ai, l'aéroport se rentabilise par elle même, sans aide de la ville.
En plus des retombés économiques que l'aéroport apporte à Mascouche, étant la plus achanlandé
de la province de Québec pour un petit aéroport.



Visiteur

#198

2013-02-14 19:22

La fermeture de l'areoport pour la vente du terrain c pour enrichir les politicien
H.Houle

#199 Re: NON a la fermeture de CSK3

2013-02-15 01:22

#26: letang - NON a la fermeture de CSK3

vous devez informer les gens et demander de signer la petition

on veut faire disparaitre l'aeroport de mascouche, le terrain de golf,  deux bijoux rares pour une ville

nous avons un parc industriel petit très petit et sans espoir de voir de grandes progressions , il ne ne faut pas faire disparaitre cet élément de levier important L'AÉROPORT

 

Eric perreault

#200 Re: L'apport économique d'un aéroport

2013-02-15 01:43

#51: Yvanhoe - L'apport économique d'un aéroport 

 

En effet, on pourrait aussi mettre des condos à la place des parcs ou des arénas pour avoir plus de taxes et moins de dépenses mais comme fermer les aéroports cela ne fait pas de sens. Le conseil veut développer ce secteur comme un TOD transit oriented development. La dernière fois que j'ai volé c'était justement pour me déplacer d'un point à un autre bien des gens seraient heureux de se bâtir des résidences hangars ce qui donnerait plus de taxes mais la ville ne le permet pas. C'est une action à court terme de gens sans vision